bsnes/sfc/coprocessor/sdd1/decomp.cpp

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Update to v080r01 release. byuu says: There was one unfortunate aspect of the S-DD1 module: you had to give it the DMA length and a target buffer, and it would do the entire decompression at once. Real hardware would work by streaming the data byte by byte. So with that, I went ahead and rewrote the code to handle byte-based streaming. This WIP is an important milestone for me personally. Up until now, bsnes has always had code that was directly copy-pasted from other authors. With all of the DSP and Cx4 chips rewritten in LLE, and the SPC7110 algorithm already ported over from C, and archive decompression code removed for a long time, the S-DD1 was the only module left like this. It's obviously not that big of a deal. The code is basically still a copy of the original. S-DD1 decomp from Andreas Naive, SPC7110 decomp from neviksti, and S-DSP from blargg. And the rest of the emulator is of course only possible because of code and research before it, although everything else has no resemblance at all to code before it. The main advantage, really, is absolute code consistency. I always use the same variant of K&R, for instance. I dunno, I guess I just never really liked the "Build-a-Bear Workshop" style of emulators, like is so prominent in the Genesis scene: "My new Genesis emu (uses Starscream/Musashi 68K core, Marat Fayzullin's Z80 core, YM2612 core from Game_Music_Emu, VDP core from Gens, SVP core from picodrive)", sorry, but you wrote a front-end, not an emulator :/ I also updated the SPC7110 decompression module: I merged the class inside the SPC7110 class (not sure why it was separate before), and replaced the morton lookup tables with for-loops. The morton tables were added to be a tiny bit faster when I was more interested in speed than code clarity. It may be a tiny bit slower (or faster due to less L2 cache usage), but you won't even notice an FPS drop, and it cuts out a good chunk of code and some tables. Lastly, I added pinput_poll() to video_refresh(). Forgot to remove Interface::input_poll() from the C++ side, will have to do that later.
2011-06-28 11:36:00 +00:00
//S-DD1 decompression algorithm implementation
//original code written by Andreas Naive (public domain license)
//bsnes port written by byuu
//note: decompression module does not need to be serialized with bsnes
//this is because decompression only runs during DMA, and bsnes will complete
//any pending DMA transfers prior to serialization.
//input manager
auto SDD1::Decomp::IM::init(uint offset_) -> void {
Update to v080r01 release. byuu says: There was one unfortunate aspect of the S-DD1 module: you had to give it the DMA length and a target buffer, and it would do the entire decompression at once. Real hardware would work by streaming the data byte by byte. So with that, I went ahead and rewrote the code to handle byte-based streaming. This WIP is an important milestone for me personally. Up until now, bsnes has always had code that was directly copy-pasted from other authors. With all of the DSP and Cx4 chips rewritten in LLE, and the SPC7110 algorithm already ported over from C, and archive decompression code removed for a long time, the S-DD1 was the only module left like this. It's obviously not that big of a deal. The code is basically still a copy of the original. S-DD1 decomp from Andreas Naive, SPC7110 decomp from neviksti, and S-DSP from blargg. And the rest of the emulator is of course only possible because of code and research before it, although everything else has no resemblance at all to code before it. The main advantage, really, is absolute code consistency. I always use the same variant of K&R, for instance. I dunno, I guess I just never really liked the "Build-a-Bear Workshop" style of emulators, like is so prominent in the Genesis scene: "My new Genesis emu (uses Starscream/Musashi 68K core, Marat Fayzullin's Z80 core, YM2612 core from Game_Music_Emu, VDP core from Gens, SVP core from picodrive)", sorry, but you wrote a front-end, not an emulator :/ I also updated the SPC7110 decompression module: I merged the class inside the SPC7110 class (not sure why it was separate before), and replaced the morton lookup tables with for-loops. The morton tables were added to be a tiny bit faster when I was more interested in speed than code clarity. It may be a tiny bit slower (or faster due to less L2 cache usage), but you won't even notice an FPS drop, and it cuts out a good chunk of code and some tables. Lastly, I added pinput_poll() to video_refresh(). Forgot to remove Interface::input_poll() from the C++ side, will have to do that later.
2011-06-28 11:36:00 +00:00
offset = offset_;
bit_count = 4;
}
auto SDD1::Decomp::IM::get_codeword(uint8 code_length) -> uint8 {
Update to v080r01 release. byuu says: There was one unfortunate aspect of the S-DD1 module: you had to give it the DMA length and a target buffer, and it would do the entire decompression at once. Real hardware would work by streaming the data byte by byte. So with that, I went ahead and rewrote the code to handle byte-based streaming. This WIP is an important milestone for me personally. Up until now, bsnes has always had code that was directly copy-pasted from other authors. With all of the DSP and Cx4 chips rewritten in LLE, and the SPC7110 algorithm already ported over from C, and archive decompression code removed for a long time, the S-DD1 was the only module left like this. It's obviously not that big of a deal. The code is basically still a copy of the original. S-DD1 decomp from Andreas Naive, SPC7110 decomp from neviksti, and S-DSP from blargg. And the rest of the emulator is of course only possible because of code and research before it, although everything else has no resemblance at all to code before it. The main advantage, really, is absolute code consistency. I always use the same variant of K&R, for instance. I dunno, I guess I just never really liked the "Build-a-Bear Workshop" style of emulators, like is so prominent in the Genesis scene: "My new Genesis emu (uses Starscream/Musashi 68K core, Marat Fayzullin's Z80 core, YM2612 core from Game_Music_Emu, VDP core from Gens, SVP core from picodrive)", sorry, but you wrote a front-end, not an emulator :/ I also updated the SPC7110 decompression module: I merged the class inside the SPC7110 class (not sure why it was separate before), and replaced the morton lookup tables with for-loops. The morton tables were added to be a tiny bit faster when I was more interested in speed than code clarity. It may be a tiny bit slower (or faster due to less L2 cache usage), but you won't even notice an FPS drop, and it cuts out a good chunk of code and some tables. Lastly, I added pinput_poll() to video_refresh(). Forgot to remove Interface::input_poll() from the C++ side, will have to do that later.
2011-06-28 11:36:00 +00:00
uint8 codeword;
uint8 comp_count;
codeword = sdd1.mmc_read(offset) << bit_count;
Update to v080r01 release. byuu says: There was one unfortunate aspect of the S-DD1 module: you had to give it the DMA length and a target buffer, and it would do the entire decompression at once. Real hardware would work by streaming the data byte by byte. So with that, I went ahead and rewrote the code to handle byte-based streaming. This WIP is an important milestone for me personally. Up until now, bsnes has always had code that was directly copy-pasted from other authors. With all of the DSP and Cx4 chips rewritten in LLE, and the SPC7110 algorithm already ported over from C, and archive decompression code removed for a long time, the S-DD1 was the only module left like this. It's obviously not that big of a deal. The code is basically still a copy of the original. S-DD1 decomp from Andreas Naive, SPC7110 decomp from neviksti, and S-DSP from blargg. And the rest of the emulator is of course only possible because of code and research before it, although everything else has no resemblance at all to code before it. The main advantage, really, is absolute code consistency. I always use the same variant of K&R, for instance. I dunno, I guess I just never really liked the "Build-a-Bear Workshop" style of emulators, like is so prominent in the Genesis scene: "My new Genesis emu (uses Starscream/Musashi 68K core, Marat Fayzullin's Z80 core, YM2612 core from Game_Music_Emu, VDP core from Gens, SVP core from picodrive)", sorry, but you wrote a front-end, not an emulator :/ I also updated the SPC7110 decompression module: I merged the class inside the SPC7110 class (not sure why it was separate before), and replaced the morton lookup tables with for-loops. The morton tables were added to be a tiny bit faster when I was more interested in speed than code clarity. It may be a tiny bit slower (or faster due to less L2 cache usage), but you won't even notice an FPS drop, and it cuts out a good chunk of code and some tables. Lastly, I added pinput_poll() to video_refresh(). Forgot to remove Interface::input_poll() from the C++ side, will have to do that later.
2011-06-28 11:36:00 +00:00
bit_count++;
if(codeword & 0x80) {
codeword |= sdd1.mmc_read(offset + 1) >> (9 - bit_count);
Update to v080r01 release. byuu says: There was one unfortunate aspect of the S-DD1 module: you had to give it the DMA length and a target buffer, and it would do the entire decompression at once. Real hardware would work by streaming the data byte by byte. So with that, I went ahead and rewrote the code to handle byte-based streaming. This WIP is an important milestone for me personally. Up until now, bsnes has always had code that was directly copy-pasted from other authors. With all of the DSP and Cx4 chips rewritten in LLE, and the SPC7110 algorithm already ported over from C, and archive decompression code removed for a long time, the S-DD1 was the only module left like this. It's obviously not that big of a deal. The code is basically still a copy of the original. S-DD1 decomp from Andreas Naive, SPC7110 decomp from neviksti, and S-DSP from blargg. And the rest of the emulator is of course only possible because of code and research before it, although everything else has no resemblance at all to code before it. The main advantage, really, is absolute code consistency. I always use the same variant of K&R, for instance. I dunno, I guess I just never really liked the "Build-a-Bear Workshop" style of emulators, like is so prominent in the Genesis scene: "My new Genesis emu (uses Starscream/Musashi 68K core, Marat Fayzullin's Z80 core, YM2612 core from Game_Music_Emu, VDP core from Gens, SVP core from picodrive)", sorry, but you wrote a front-end, not an emulator :/ I also updated the SPC7110 decompression module: I merged the class inside the SPC7110 class (not sure why it was separate before), and replaced the morton lookup tables with for-loops. The morton tables were added to be a tiny bit faster when I was more interested in speed than code clarity. It may be a tiny bit slower (or faster due to less L2 cache usage), but you won't even notice an FPS drop, and it cuts out a good chunk of code and some tables. Lastly, I added pinput_poll() to video_refresh(). Forgot to remove Interface::input_poll() from the C++ side, will have to do that later.
2011-06-28 11:36:00 +00:00
bit_count += code_length;
}
if(bit_count & 0x08) {
offset++;
bit_count &= 0x07;
}
return codeword;
}
//golomb-code decoder
const uint8 SDD1::Decomp::GCD::run_count[] = {
0x00, 0x00, 0x01, 0x00, 0x03, 0x01, 0x02, 0x00,
0x07, 0x03, 0x05, 0x01, 0x06, 0x02, 0x04, 0x00,
0x0f, 0x07, 0x0b, 0x03, 0x0d, 0x05, 0x09, 0x01,
0x0e, 0x06, 0x0a, 0x02, 0x0c, 0x04, 0x08, 0x00,
0x1f, 0x0f, 0x17, 0x07, 0x1b, 0x0b, 0x13, 0x03,
0x1d, 0x0d, 0x15, 0x05, 0x19, 0x09, 0x11, 0x01,
0x1e, 0x0e, 0x16, 0x06, 0x1a, 0x0a, 0x12, 0x02,
0x1c, 0x0c, 0x14, 0x04, 0x18, 0x08, 0x10, 0x00,
0x3f, 0x1f, 0x2f, 0x0f, 0x37, 0x17, 0x27, 0x07,
0x3b, 0x1b, 0x2b, 0x0b, 0x33, 0x13, 0x23, 0x03,
0x3d, 0x1d, 0x2d, 0x0d, 0x35, 0x15, 0x25, 0x05,
0x39, 0x19, 0x29, 0x09, 0x31, 0x11, 0x21, 0x01,
0x3e, 0x1e, 0x2e, 0x0e, 0x36, 0x16, 0x26, 0x06,
0x3a, 0x1a, 0x2a, 0x0a, 0x32, 0x12, 0x22, 0x02,
0x3c, 0x1c, 0x2c, 0x0c, 0x34, 0x14, 0x24, 0x04,
0x38, 0x18, 0x28, 0x08, 0x30, 0x10, 0x20, 0x00,
0x7f, 0x3f, 0x5f, 0x1f, 0x6f, 0x2f, 0x4f, 0x0f,
0x77, 0x37, 0x57, 0x17, 0x67, 0x27, 0x47, 0x07,
0x7b, 0x3b, 0x5b, 0x1b, 0x6b, 0x2b, 0x4b, 0x0b,
0x73, 0x33, 0x53, 0x13, 0x63, 0x23, 0x43, 0x03,
0x7d, 0x3d, 0x5d, 0x1d, 0x6d, 0x2d, 0x4d, 0x0d,
0x75, 0x35, 0x55, 0x15, 0x65, 0x25, 0x45, 0x05,
0x79, 0x39, 0x59, 0x19, 0x69, 0x29, 0x49, 0x09,
0x71, 0x31, 0x51, 0x11, 0x61, 0x21, 0x41, 0x01,
0x7e, 0x3e, 0x5e, 0x1e, 0x6e, 0x2e, 0x4e, 0x0e,
0x76, 0x36, 0x56, 0x16, 0x66, 0x26, 0x46, 0x06,
0x7a, 0x3a, 0x5a, 0x1a, 0x6a, 0x2a, 0x4a, 0x0a,
0x72, 0x32, 0x52, 0x12, 0x62, 0x22, 0x42, 0x02,
0x7c, 0x3c, 0x5c, 0x1c, 0x6c, 0x2c, 0x4c, 0x0c,
0x74, 0x34, 0x54, 0x14, 0x64, 0x24, 0x44, 0x04,
0x78, 0x38, 0x58, 0x18, 0x68, 0x28, 0x48, 0x08,
0x70, 0x30, 0x50, 0x10, 0x60, 0x20, 0x40, 0x00,
};
auto SDD1::Decomp::GCD::get_run_count(uint8 code_number, uint8& mps_count, bool& lps_index) -> void {
Update to v080r01 release. byuu says: There was one unfortunate aspect of the S-DD1 module: you had to give it the DMA length and a target buffer, and it would do the entire decompression at once. Real hardware would work by streaming the data byte by byte. So with that, I went ahead and rewrote the code to handle byte-based streaming. This WIP is an important milestone for me personally. Up until now, bsnes has always had code that was directly copy-pasted from other authors. With all of the DSP and Cx4 chips rewritten in LLE, and the SPC7110 algorithm already ported over from C, and archive decompression code removed for a long time, the S-DD1 was the only module left like this. It's obviously not that big of a deal. The code is basically still a copy of the original. S-DD1 decomp from Andreas Naive, SPC7110 decomp from neviksti, and S-DSP from blargg. And the rest of the emulator is of course only possible because of code and research before it, although everything else has no resemblance at all to code before it. The main advantage, really, is absolute code consistency. I always use the same variant of K&R, for instance. I dunno, I guess I just never really liked the "Build-a-Bear Workshop" style of emulators, like is so prominent in the Genesis scene: "My new Genesis emu (uses Starscream/Musashi 68K core, Marat Fayzullin's Z80 core, YM2612 core from Game_Music_Emu, VDP core from Gens, SVP core from picodrive)", sorry, but you wrote a front-end, not an emulator :/ I also updated the SPC7110 decompression module: I merged the class inside the SPC7110 class (not sure why it was separate before), and replaced the morton lookup tables with for-loops. The morton tables were added to be a tiny bit faster when I was more interested in speed than code clarity. It may be a tiny bit slower (or faster due to less L2 cache usage), but you won't even notice an FPS drop, and it cuts out a good chunk of code and some tables. Lastly, I added pinput_poll() to video_refresh(). Forgot to remove Interface::input_poll() from the C++ side, will have to do that later.
2011-06-28 11:36:00 +00:00
uint8 codeword = self.im.get_codeword(code_number);
if(codeword & 0x80) {
lps_index = 1;
mps_count = run_count[codeword >> (code_number ^ 0x07)];
} else {
mps_count = 1 << code_number;
}
}
//bits generator
auto SDD1::Decomp::BG::init() -> void {
Update to v080r01 release. byuu says: There was one unfortunate aspect of the S-DD1 module: you had to give it the DMA length and a target buffer, and it would do the entire decompression at once. Real hardware would work by streaming the data byte by byte. So with that, I went ahead and rewrote the code to handle byte-based streaming. This WIP is an important milestone for me personally. Up until now, bsnes has always had code that was directly copy-pasted from other authors. With all of the DSP and Cx4 chips rewritten in LLE, and the SPC7110 algorithm already ported over from C, and archive decompression code removed for a long time, the S-DD1 was the only module left like this. It's obviously not that big of a deal. The code is basically still a copy of the original. S-DD1 decomp from Andreas Naive, SPC7110 decomp from neviksti, and S-DSP from blargg. And the rest of the emulator is of course only possible because of code and research before it, although everything else has no resemblance at all to code before it. The main advantage, really, is absolute code consistency. I always use the same variant of K&R, for instance. I dunno, I guess I just never really liked the "Build-a-Bear Workshop" style of emulators, like is so prominent in the Genesis scene: "My new Genesis emu (uses Starscream/Musashi 68K core, Marat Fayzullin's Z80 core, YM2612 core from Game_Music_Emu, VDP core from Gens, SVP core from picodrive)", sorry, but you wrote a front-end, not an emulator :/ I also updated the SPC7110 decompression module: I merged the class inside the SPC7110 class (not sure why it was separate before), and replaced the morton lookup tables with for-loops. The morton tables were added to be a tiny bit faster when I was more interested in speed than code clarity. It may be a tiny bit slower (or faster due to less L2 cache usage), but you won't even notice an FPS drop, and it cuts out a good chunk of code and some tables. Lastly, I added pinput_poll() to video_refresh(). Forgot to remove Interface::input_poll() from the C++ side, will have to do that later.
2011-06-28 11:36:00 +00:00
mps_count = 0;
lps_index = 0;
}
auto SDD1::Decomp::BG::get_bit(bool& end_of_run) -> uint8 {
Update to v080r01 release. byuu says: There was one unfortunate aspect of the S-DD1 module: you had to give it the DMA length and a target buffer, and it would do the entire decompression at once. Real hardware would work by streaming the data byte by byte. So with that, I went ahead and rewrote the code to handle byte-based streaming. This WIP is an important milestone for me personally. Up until now, bsnes has always had code that was directly copy-pasted from other authors. With all of the DSP and Cx4 chips rewritten in LLE, and the SPC7110 algorithm already ported over from C, and archive decompression code removed for a long time, the S-DD1 was the only module left like this. It's obviously not that big of a deal. The code is basically still a copy of the original. S-DD1 decomp from Andreas Naive, SPC7110 decomp from neviksti, and S-DSP from blargg. And the rest of the emulator is of course only possible because of code and research before it, although everything else has no resemblance at all to code before it. The main advantage, really, is absolute code consistency. I always use the same variant of K&R, for instance. I dunno, I guess I just never really liked the "Build-a-Bear Workshop" style of emulators, like is so prominent in the Genesis scene: "My new Genesis emu (uses Starscream/Musashi 68K core, Marat Fayzullin's Z80 core, YM2612 core from Game_Music_Emu, VDP core from Gens, SVP core from picodrive)", sorry, but you wrote a front-end, not an emulator :/ I also updated the SPC7110 decompression module: I merged the class inside the SPC7110 class (not sure why it was separate before), and replaced the morton lookup tables with for-loops. The morton tables were added to be a tiny bit faster when I was more interested in speed than code clarity. It may be a tiny bit slower (or faster due to less L2 cache usage), but you won't even notice an FPS drop, and it cuts out a good chunk of code and some tables. Lastly, I added pinput_poll() to video_refresh(). Forgot to remove Interface::input_poll() from the C++ side, will have to do that later.
2011-06-28 11:36:00 +00:00
if(!(mps_count || lps_index)) self.gcd.get_run_count(code_number, mps_count, lps_index);
uint8 bit;
if(mps_count) {
bit = 0;
mps_count--;
} else {
bit = 1;
lps_index = 0;
}
end_of_run = !(mps_count || lps_index);
return bit;
}
//probability estimation module
const SDD1::Decomp::PEM::State SDD1::Decomp::PEM::evolution_table[33] = {
{0, 25, 25},
{0, 2, 1},
{0, 3, 1},
{0, 4, 2},
{0, 5, 3},
{1, 6, 4},
{1, 7, 5},
{1, 8, 6},
{1, 9, 7},
{2, 10, 8},
{2, 11, 9},
{2, 12, 10},
{2, 13, 11},
{3, 14, 12},
{3, 15, 13},
{3, 16, 14},
{3, 17, 15},
{4, 18, 16},
{4, 19, 17},
{5, 20, 18},
{5, 21, 19},
{6, 22, 20},
{6, 23, 21},
{7, 24, 22},
{7, 24, 23},
{0, 26, 1},
{1, 27, 2},
{2, 28, 4},
{3, 29, 8},
{4, 30, 12},
{5, 31, 16},
{6, 32, 18},
{7, 24, 22},
Update to v080r01 release. byuu says: There was one unfortunate aspect of the S-DD1 module: you had to give it the DMA length and a target buffer, and it would do the entire decompression at once. Real hardware would work by streaming the data byte by byte. So with that, I went ahead and rewrote the code to handle byte-based streaming. This WIP is an important milestone for me personally. Up until now, bsnes has always had code that was directly copy-pasted from other authors. With all of the DSP and Cx4 chips rewritten in LLE, and the SPC7110 algorithm already ported over from C, and archive decompression code removed for a long time, the S-DD1 was the only module left like this. It's obviously not that big of a deal. The code is basically still a copy of the original. S-DD1 decomp from Andreas Naive, SPC7110 decomp from neviksti, and S-DSP from blargg. And the rest of the emulator is of course only possible because of code and research before it, although everything else has no resemblance at all to code before it. The main advantage, really, is absolute code consistency. I always use the same variant of K&R, for instance. I dunno, I guess I just never really liked the "Build-a-Bear Workshop" style of emulators, like is so prominent in the Genesis scene: "My new Genesis emu (uses Starscream/Musashi 68K core, Marat Fayzullin's Z80 core, YM2612 core from Game_Music_Emu, VDP core from Gens, SVP core from picodrive)", sorry, but you wrote a front-end, not an emulator :/ I also updated the SPC7110 decompression module: I merged the class inside the SPC7110 class (not sure why it was separate before), and replaced the morton lookup tables with for-loops. The morton tables were added to be a tiny bit faster when I was more interested in speed than code clarity. It may be a tiny bit slower (or faster due to less L2 cache usage), but you won't even notice an FPS drop, and it cuts out a good chunk of code and some tables. Lastly, I added pinput_poll() to video_refresh(). Forgot to remove Interface::input_poll() from the C++ side, will have to do that later.
2011-06-28 11:36:00 +00:00
};
auto SDD1::Decomp::PEM::init() -> void {
for(auto n : range(32)) {
context_info[n].status = 0;
context_info[n].mps = 0;
Update to v080r01 release. byuu says: There was one unfortunate aspect of the S-DD1 module: you had to give it the DMA length and a target buffer, and it would do the entire decompression at once. Real hardware would work by streaming the data byte by byte. So with that, I went ahead and rewrote the code to handle byte-based streaming. This WIP is an important milestone for me personally. Up until now, bsnes has always had code that was directly copy-pasted from other authors. With all of the DSP and Cx4 chips rewritten in LLE, and the SPC7110 algorithm already ported over from C, and archive decompression code removed for a long time, the S-DD1 was the only module left like this. It's obviously not that big of a deal. The code is basically still a copy of the original. S-DD1 decomp from Andreas Naive, SPC7110 decomp from neviksti, and S-DSP from blargg. And the rest of the emulator is of course only possible because of code and research before it, although everything else has no resemblance at all to code before it. The main advantage, really, is absolute code consistency. I always use the same variant of K&R, for instance. I dunno, I guess I just never really liked the "Build-a-Bear Workshop" style of emulators, like is so prominent in the Genesis scene: "My new Genesis emu (uses Starscream/Musashi 68K core, Marat Fayzullin's Z80 core, YM2612 core from Game_Music_Emu, VDP core from Gens, SVP core from picodrive)", sorry, but you wrote a front-end, not an emulator :/ I also updated the SPC7110 decompression module: I merged the class inside the SPC7110 class (not sure why it was separate before), and replaced the morton lookup tables with for-loops. The morton tables were added to be a tiny bit faster when I was more interested in speed than code clarity. It may be a tiny bit slower (or faster due to less L2 cache usage), but you won't even notice an FPS drop, and it cuts out a good chunk of code and some tables. Lastly, I added pinput_poll() to video_refresh(). Forgot to remove Interface::input_poll() from the C++ side, will have to do that later.
2011-06-28 11:36:00 +00:00
}
}
auto SDD1::Decomp::PEM::get_bit(uint8 context) -> uint8 {
ContextInfo& info = context_info[context];
Update to v080r01 release. byuu says: There was one unfortunate aspect of the S-DD1 module: you had to give it the DMA length and a target buffer, and it would do the entire decompression at once. Real hardware would work by streaming the data byte by byte. So with that, I went ahead and rewrote the code to handle byte-based streaming. This WIP is an important milestone for me personally. Up until now, bsnes has always had code that was directly copy-pasted from other authors. With all of the DSP and Cx4 chips rewritten in LLE, and the SPC7110 algorithm already ported over from C, and archive decompression code removed for a long time, the S-DD1 was the only module left like this. It's obviously not that big of a deal. The code is basically still a copy of the original. S-DD1 decomp from Andreas Naive, SPC7110 decomp from neviksti, and S-DSP from blargg. And the rest of the emulator is of course only possible because of code and research before it, although everything else has no resemblance at all to code before it. The main advantage, really, is absolute code consistency. I always use the same variant of K&R, for instance. I dunno, I guess I just never really liked the "Build-a-Bear Workshop" style of emulators, like is so prominent in the Genesis scene: "My new Genesis emu (uses Starscream/Musashi 68K core, Marat Fayzullin's Z80 core, YM2612 core from Game_Music_Emu, VDP core from Gens, SVP core from picodrive)", sorry, but you wrote a front-end, not an emulator :/ I also updated the SPC7110 decompression module: I merged the class inside the SPC7110 class (not sure why it was separate before), and replaced the morton lookup tables with for-loops. The morton tables were added to be a tiny bit faster when I was more interested in speed than code clarity. It may be a tiny bit slower (or faster due to less L2 cache usage), but you won't even notice an FPS drop, and it cuts out a good chunk of code and some tables. Lastly, I added pinput_poll() to video_refresh(). Forgot to remove Interface::input_poll() from the C++ side, will have to do that later.
2011-06-28 11:36:00 +00:00
uint8 current_status = info.status;
uint8 current_mps = info.mps;
const State& s = SDD1::Decomp::PEM::evolution_table[current_status];
Update to v080r01 release. byuu says: There was one unfortunate aspect of the S-DD1 module: you had to give it the DMA length and a target buffer, and it would do the entire decompression at once. Real hardware would work by streaming the data byte by byte. So with that, I went ahead and rewrote the code to handle byte-based streaming. This WIP is an important milestone for me personally. Up until now, bsnes has always had code that was directly copy-pasted from other authors. With all of the DSP and Cx4 chips rewritten in LLE, and the SPC7110 algorithm already ported over from C, and archive decompression code removed for a long time, the S-DD1 was the only module left like this. It's obviously not that big of a deal. The code is basically still a copy of the original. S-DD1 decomp from Andreas Naive, SPC7110 decomp from neviksti, and S-DSP from blargg. And the rest of the emulator is of course only possible because of code and research before it, although everything else has no resemblance at all to code before it. The main advantage, really, is absolute code consistency. I always use the same variant of K&R, for instance. I dunno, I guess I just never really liked the "Build-a-Bear Workshop" style of emulators, like is so prominent in the Genesis scene: "My new Genesis emu (uses Starscream/Musashi 68K core, Marat Fayzullin's Z80 core, YM2612 core from Game_Music_Emu, VDP core from Gens, SVP core from picodrive)", sorry, but you wrote a front-end, not an emulator :/ I also updated the SPC7110 decompression module: I merged the class inside the SPC7110 class (not sure why it was separate before), and replaced the morton lookup tables with for-loops. The morton tables were added to be a tiny bit faster when I was more interested in speed than code clarity. It may be a tiny bit slower (or faster due to less L2 cache usage), but you won't even notice an FPS drop, and it cuts out a good chunk of code and some tables. Lastly, I added pinput_poll() to video_refresh(). Forgot to remove Interface::input_poll() from the C++ side, will have to do that later.
2011-06-28 11:36:00 +00:00
uint8 bit;
bool end_of_run;
switch(s.code_number) {
case 0: bit = self.bg0.get_bit(end_of_run); break;
case 1: bit = self.bg1.get_bit(end_of_run); break;
case 2: bit = self.bg2.get_bit(end_of_run); break;
case 3: bit = self.bg3.get_bit(end_of_run); break;
case 4: bit = self.bg4.get_bit(end_of_run); break;
case 5: bit = self.bg5.get_bit(end_of_run); break;
case 6: bit = self.bg6.get_bit(end_of_run); break;
case 7: bit = self.bg7.get_bit(end_of_run); break;
}
if(end_of_run) {
if(bit) {
if(!(current_status & 0xfe)) info.mps ^= 0x01;
info.status = s.next_if_lps;
} else {
info.status = s.next_if_mps;
}
}
return bit ^ current_mps;
}
//context model
auto SDD1::Decomp::CM::init(uint offset) -> void {
bitplanes_info = sdd1.mmc_read(offset) & 0xc0;
context_bits_info = sdd1.mmc_read(offset) & 0x30;
Update to v080r01 release. byuu says: There was one unfortunate aspect of the S-DD1 module: you had to give it the DMA length and a target buffer, and it would do the entire decompression at once. Real hardware would work by streaming the data byte by byte. So with that, I went ahead and rewrote the code to handle byte-based streaming. This WIP is an important milestone for me personally. Up until now, bsnes has always had code that was directly copy-pasted from other authors. With all of the DSP and Cx4 chips rewritten in LLE, and the SPC7110 algorithm already ported over from C, and archive decompression code removed for a long time, the S-DD1 was the only module left like this. It's obviously not that big of a deal. The code is basically still a copy of the original. S-DD1 decomp from Andreas Naive, SPC7110 decomp from neviksti, and S-DSP from blargg. And the rest of the emulator is of course only possible because of code and research before it, although everything else has no resemblance at all to code before it. The main advantage, really, is absolute code consistency. I always use the same variant of K&R, for instance. I dunno, I guess I just never really liked the "Build-a-Bear Workshop" style of emulators, like is so prominent in the Genesis scene: "My new Genesis emu (uses Starscream/Musashi 68K core, Marat Fayzullin's Z80 core, YM2612 core from Game_Music_Emu, VDP core from Gens, SVP core from picodrive)", sorry, but you wrote a front-end, not an emulator :/ I also updated the SPC7110 decompression module: I merged the class inside the SPC7110 class (not sure why it was separate before), and replaced the morton lookup tables with for-loops. The morton tables were added to be a tiny bit faster when I was more interested in speed than code clarity. It may be a tiny bit slower (or faster due to less L2 cache usage), but you won't even notice an FPS drop, and it cuts out a good chunk of code and some tables. Lastly, I added pinput_poll() to video_refresh(). Forgot to remove Interface::input_poll() from the C++ side, will have to do that later.
2011-06-28 11:36:00 +00:00
bit_number = 0;
for(auto n : range(8)) previous_bitplane_bits[n] = 0;
Update to v080r01 release. byuu says: There was one unfortunate aspect of the S-DD1 module: you had to give it the DMA length and a target buffer, and it would do the entire decompression at once. Real hardware would work by streaming the data byte by byte. So with that, I went ahead and rewrote the code to handle byte-based streaming. This WIP is an important milestone for me personally. Up until now, bsnes has always had code that was directly copy-pasted from other authors. With all of the DSP and Cx4 chips rewritten in LLE, and the SPC7110 algorithm already ported over from C, and archive decompression code removed for a long time, the S-DD1 was the only module left like this. It's obviously not that big of a deal. The code is basically still a copy of the original. S-DD1 decomp from Andreas Naive, SPC7110 decomp from neviksti, and S-DSP from blargg. And the rest of the emulator is of course only possible because of code and research before it, although everything else has no resemblance at all to code before it. The main advantage, really, is absolute code consistency. I always use the same variant of K&R, for instance. I dunno, I guess I just never really liked the "Build-a-Bear Workshop" style of emulators, like is so prominent in the Genesis scene: "My new Genesis emu (uses Starscream/Musashi 68K core, Marat Fayzullin's Z80 core, YM2612 core from Game_Music_Emu, VDP core from Gens, SVP core from picodrive)", sorry, but you wrote a front-end, not an emulator :/ I also updated the SPC7110 decompression module: I merged the class inside the SPC7110 class (not sure why it was separate before), and replaced the morton lookup tables with for-loops. The morton tables were added to be a tiny bit faster when I was more interested in speed than code clarity. It may be a tiny bit slower (or faster due to less L2 cache usage), but you won't even notice an FPS drop, and it cuts out a good chunk of code and some tables. Lastly, I added pinput_poll() to video_refresh(). Forgot to remove Interface::input_poll() from the C++ side, will have to do that later.
2011-06-28 11:36:00 +00:00
switch(bitplanes_info) {
case 0x00: current_bitplane = 1; break;
case 0x40: current_bitplane = 7; break;
case 0x80: current_bitplane = 3; break;
}
}
auto SDD1::Decomp::CM::get_bit() -> uint8 {
Update to v080r01 release. byuu says: There was one unfortunate aspect of the S-DD1 module: you had to give it the DMA length and a target buffer, and it would do the entire decompression at once. Real hardware would work by streaming the data byte by byte. So with that, I went ahead and rewrote the code to handle byte-based streaming. This WIP is an important milestone for me personally. Up until now, bsnes has always had code that was directly copy-pasted from other authors. With all of the DSP and Cx4 chips rewritten in LLE, and the SPC7110 algorithm already ported over from C, and archive decompression code removed for a long time, the S-DD1 was the only module left like this. It's obviously not that big of a deal. The code is basically still a copy of the original. S-DD1 decomp from Andreas Naive, SPC7110 decomp from neviksti, and S-DSP from blargg. And the rest of the emulator is of course only possible because of code and research before it, although everything else has no resemblance at all to code before it. The main advantage, really, is absolute code consistency. I always use the same variant of K&R, for instance. I dunno, I guess I just never really liked the "Build-a-Bear Workshop" style of emulators, like is so prominent in the Genesis scene: "My new Genesis emu (uses Starscream/Musashi 68K core, Marat Fayzullin's Z80 core, YM2612 core from Game_Music_Emu, VDP core from Gens, SVP core from picodrive)", sorry, but you wrote a front-end, not an emulator :/ I also updated the SPC7110 decompression module: I merged the class inside the SPC7110 class (not sure why it was separate before), and replaced the morton lookup tables with for-loops. The morton tables were added to be a tiny bit faster when I was more interested in speed than code clarity. It may be a tiny bit slower (or faster due to less L2 cache usage), but you won't even notice an FPS drop, and it cuts out a good chunk of code and some tables. Lastly, I added pinput_poll() to video_refresh(). Forgot to remove Interface::input_poll() from the C++ side, will have to do that later.
2011-06-28 11:36:00 +00:00
switch(bitplanes_info) {
case 0x00:
current_bitplane ^= 0x01;
break;
case 0x40:
current_bitplane ^= 0x01;
if(!(bit_number & 0x7f)) current_bitplane = ((current_bitplane + 2) & 0x07);
break;
case 0x80:
current_bitplane ^= 0x01;
if(!(bit_number & 0x7f)) current_bitplane ^= 0x02;
break;
case 0xc0:
current_bitplane = bit_number & 0x07;
break;
}
uint16& context_bits = previous_bitplane_bits[current_bitplane];
Update to v080r01 release. byuu says: There was one unfortunate aspect of the S-DD1 module: you had to give it the DMA length and a target buffer, and it would do the entire decompression at once. Real hardware would work by streaming the data byte by byte. So with that, I went ahead and rewrote the code to handle byte-based streaming. This WIP is an important milestone for me personally. Up until now, bsnes has always had code that was directly copy-pasted from other authors. With all of the DSP and Cx4 chips rewritten in LLE, and the SPC7110 algorithm already ported over from C, and archive decompression code removed for a long time, the S-DD1 was the only module left like this. It's obviously not that big of a deal. The code is basically still a copy of the original. S-DD1 decomp from Andreas Naive, SPC7110 decomp from neviksti, and S-DSP from blargg. And the rest of the emulator is of course only possible because of code and research before it, although everything else has no resemblance at all to code before it. The main advantage, really, is absolute code consistency. I always use the same variant of K&R, for instance. I dunno, I guess I just never really liked the "Build-a-Bear Workshop" style of emulators, like is so prominent in the Genesis scene: "My new Genesis emu (uses Starscream/Musashi 68K core, Marat Fayzullin's Z80 core, YM2612 core from Game_Music_Emu, VDP core from Gens, SVP core from picodrive)", sorry, but you wrote a front-end, not an emulator :/ I also updated the SPC7110 decompression module: I merged the class inside the SPC7110 class (not sure why it was separate before), and replaced the morton lookup tables with for-loops. The morton tables were added to be a tiny bit faster when I was more interested in speed than code clarity. It may be a tiny bit slower (or faster due to less L2 cache usage), but you won't even notice an FPS drop, and it cuts out a good chunk of code and some tables. Lastly, I added pinput_poll() to video_refresh(). Forgot to remove Interface::input_poll() from the C++ side, will have to do that later.
2011-06-28 11:36:00 +00:00
uint8 current_context = (current_bitplane & 0x01) << 4;
switch(context_bits_info) {
case 0x00: current_context |= ((context_bits & 0x01c0) >> 5) | (context_bits & 0x0001); break;
case 0x10: current_context |= ((context_bits & 0x0180) >> 5) | (context_bits & 0x0001); break;
case 0x20: current_context |= ((context_bits & 0x00c0) >> 5) | (context_bits & 0x0001); break;
case 0x30: current_context |= ((context_bits & 0x0180) >> 5) | (context_bits & 0x0003); break;
}
uint8 bit = self.pem.get_bit(current_context);
context_bits <<= 1;
context_bits |= bit;
bit_number++;
return bit;
}
//output logic
auto SDD1::Decomp::OL::init(uint offset) -> void {
bitplanes_info = sdd1.mmc_read(offset) & 0xc0;
Update to v080r01 release. byuu says: There was one unfortunate aspect of the S-DD1 module: you had to give it the DMA length and a target buffer, and it would do the entire decompression at once. Real hardware would work by streaming the data byte by byte. So with that, I went ahead and rewrote the code to handle byte-based streaming. This WIP is an important milestone for me personally. Up until now, bsnes has always had code that was directly copy-pasted from other authors. With all of the DSP and Cx4 chips rewritten in LLE, and the SPC7110 algorithm already ported over from C, and archive decompression code removed for a long time, the S-DD1 was the only module left like this. It's obviously not that big of a deal. The code is basically still a copy of the original. S-DD1 decomp from Andreas Naive, SPC7110 decomp from neviksti, and S-DSP from blargg. And the rest of the emulator is of course only possible because of code and research before it, although everything else has no resemblance at all to code before it. The main advantage, really, is absolute code consistency. I always use the same variant of K&R, for instance. I dunno, I guess I just never really liked the "Build-a-Bear Workshop" style of emulators, like is so prominent in the Genesis scene: "My new Genesis emu (uses Starscream/Musashi 68K core, Marat Fayzullin's Z80 core, YM2612 core from Game_Music_Emu, VDP core from Gens, SVP core from picodrive)", sorry, but you wrote a front-end, not an emulator :/ I also updated the SPC7110 decompression module: I merged the class inside the SPC7110 class (not sure why it was separate before), and replaced the morton lookup tables with for-loops. The morton tables were added to be a tiny bit faster when I was more interested in speed than code clarity. It may be a tiny bit slower (or faster due to less L2 cache usage), but you won't even notice an FPS drop, and it cuts out a good chunk of code and some tables. Lastly, I added pinput_poll() to video_refresh(). Forgot to remove Interface::input_poll() from the C++ side, will have to do that later.
2011-06-28 11:36:00 +00:00
r0 = 0x01;
}
auto SDD1::Decomp::OL::decompress() -> uint8 {
Update to v080r01 release. byuu says: There was one unfortunate aspect of the S-DD1 module: you had to give it the DMA length and a target buffer, and it would do the entire decompression at once. Real hardware would work by streaming the data byte by byte. So with that, I went ahead and rewrote the code to handle byte-based streaming. This WIP is an important milestone for me personally. Up until now, bsnes has always had code that was directly copy-pasted from other authors. With all of the DSP and Cx4 chips rewritten in LLE, and the SPC7110 algorithm already ported over from C, and archive decompression code removed for a long time, the S-DD1 was the only module left like this. It's obviously not that big of a deal. The code is basically still a copy of the original. S-DD1 decomp from Andreas Naive, SPC7110 decomp from neviksti, and S-DSP from blargg. And the rest of the emulator is of course only possible because of code and research before it, although everything else has no resemblance at all to code before it. The main advantage, really, is absolute code consistency. I always use the same variant of K&R, for instance. I dunno, I guess I just never really liked the "Build-a-Bear Workshop" style of emulators, like is so prominent in the Genesis scene: "My new Genesis emu (uses Starscream/Musashi 68K core, Marat Fayzullin's Z80 core, YM2612 core from Game_Music_Emu, VDP core from Gens, SVP core from picodrive)", sorry, but you wrote a front-end, not an emulator :/ I also updated the SPC7110 decompression module: I merged the class inside the SPC7110 class (not sure why it was separate before), and replaced the morton lookup tables with for-loops. The morton tables were added to be a tiny bit faster when I was more interested in speed than code clarity. It may be a tiny bit slower (or faster due to less L2 cache usage), but you won't even notice an FPS drop, and it cuts out a good chunk of code and some tables. Lastly, I added pinput_poll() to video_refresh(). Forgot to remove Interface::input_poll() from the C++ side, will have to do that later.
2011-06-28 11:36:00 +00:00
switch(bitplanes_info) {
case 0x00: case 0x40: case 0x80:
if(r0 == 0) {
r0 = ~r0;
return r2;
}
for(r0 = 0x80, r1 = 0, r2 = 0; r0; r0 >>= 1) {
if(self.cm.get_bit()) r1 |= r0;
if(self.cm.get_bit()) r2 |= r0;
}
return r1;
case 0xc0:
for(r0 = 0x01, r1 = 0; r0; r0 <<= 1) {
if(self.cm.get_bit()) r1 |= r0;
}
return r1;
}
}
//core
SDD1::Decomp::Decomp():
im(*this), gcd(*this),
bg0(*this, 0), bg1(*this, 1), bg2(*this, 2), bg3(*this, 3),
bg4(*this, 4), bg5(*this, 5), bg6(*this, 6), bg7(*this, 7),
pem(*this), cm(*this), ol(*this) {
}
auto SDD1::Decomp::init(uint offset) -> void {
Update to v080r01 release. byuu says: There was one unfortunate aspect of the S-DD1 module: you had to give it the DMA length and a target buffer, and it would do the entire decompression at once. Real hardware would work by streaming the data byte by byte. So with that, I went ahead and rewrote the code to handle byte-based streaming. This WIP is an important milestone for me personally. Up until now, bsnes has always had code that was directly copy-pasted from other authors. With all of the DSP and Cx4 chips rewritten in LLE, and the SPC7110 algorithm already ported over from C, and archive decompression code removed for a long time, the S-DD1 was the only module left like this. It's obviously not that big of a deal. The code is basically still a copy of the original. S-DD1 decomp from Andreas Naive, SPC7110 decomp from neviksti, and S-DSP from blargg. And the rest of the emulator is of course only possible because of code and research before it, although everything else has no resemblance at all to code before it. The main advantage, really, is absolute code consistency. I always use the same variant of K&R, for instance. I dunno, I guess I just never really liked the "Build-a-Bear Workshop" style of emulators, like is so prominent in the Genesis scene: "My new Genesis emu (uses Starscream/Musashi 68K core, Marat Fayzullin's Z80 core, YM2612 core from Game_Music_Emu, VDP core from Gens, SVP core from picodrive)", sorry, but you wrote a front-end, not an emulator :/ I also updated the SPC7110 decompression module: I merged the class inside the SPC7110 class (not sure why it was separate before), and replaced the morton lookup tables with for-loops. The morton tables were added to be a tiny bit faster when I was more interested in speed than code clarity. It may be a tiny bit slower (or faster due to less L2 cache usage), but you won't even notice an FPS drop, and it cuts out a good chunk of code and some tables. Lastly, I added pinput_poll() to video_refresh(). Forgot to remove Interface::input_poll() from the C++ side, will have to do that later.
2011-06-28 11:36:00 +00:00
im.init(offset);
bg0.init();
bg1.init();
bg2.init();
bg3.init();
bg4.init();
bg5.init();
bg6.init();
bg7.init();
pem.init();
cm.init(offset);
ol.init(offset);
}
auto SDD1::Decomp::read() -> uint8 {
Update to v080r01 release. byuu says: There was one unfortunate aspect of the S-DD1 module: you had to give it the DMA length and a target buffer, and it would do the entire decompression at once. Real hardware would work by streaming the data byte by byte. So with that, I went ahead and rewrote the code to handle byte-based streaming. This WIP is an important milestone for me personally. Up until now, bsnes has always had code that was directly copy-pasted from other authors. With all of the DSP and Cx4 chips rewritten in LLE, and the SPC7110 algorithm already ported over from C, and archive decompression code removed for a long time, the S-DD1 was the only module left like this. It's obviously not that big of a deal. The code is basically still a copy of the original. S-DD1 decomp from Andreas Naive, SPC7110 decomp from neviksti, and S-DSP from blargg. And the rest of the emulator is of course only possible because of code and research before it, although everything else has no resemblance at all to code before it. The main advantage, really, is absolute code consistency. I always use the same variant of K&R, for instance. I dunno, I guess I just never really liked the "Build-a-Bear Workshop" style of emulators, like is so prominent in the Genesis scene: "My new Genesis emu (uses Starscream/Musashi 68K core, Marat Fayzullin's Z80 core, YM2612 core from Game_Music_Emu, VDP core from Gens, SVP core from picodrive)", sorry, but you wrote a front-end, not an emulator :/ I also updated the SPC7110 decompression module: I merged the class inside the SPC7110 class (not sure why it was separate before), and replaced the morton lookup tables with for-loops. The morton tables were added to be a tiny bit faster when I was more interested in speed than code clarity. It may be a tiny bit slower (or faster due to less L2 cache usage), but you won't even notice an FPS drop, and it cuts out a good chunk of code and some tables. Lastly, I added pinput_poll() to video_refresh(). Forgot to remove Interface::input_poll() from the C++ side, will have to do that later.
2011-06-28 11:36:00 +00:00
return ol.decompress();
}