platforms/amiga/gayle-ide/ide.c \
platforms/amiga/rtg/rtg.c \
platforms/amiga/rtg/rtg-output.c \
+ platforms/amiga/rtg/rtg-gfx.c \
platforms/shared/rtc.c
MUSASHIFILES = m68kcpu.c softfloat/softfloat.c
CC = gcc
WARNINGS = -Wall -Wextra -pedantic
-CFLAGS = $(WARNINGS) -march=armv7 -O3
+CFLAGS = $(WARNINGS) -march=armv8-a -mfloat-abi=hard -mfpu=neon-fp-armv8 -O3
LFLAGS = $(WARNINGS) `sdl2-config --libs`
TARGET = $(EXENAME)$(EXE)
extern volatile unsigned int *gpio;
extern volatile uint16_t srdata;
+extern uint8_t realtime_graphics_debug;
#define KICKBASE 0xF80000
#define KICKSIZE 0x7FFFF
unsigned int cpu_type = M68K_CPU_TYPE_68000;
unsigned int loop_cycles = 300;
struct emulator_config *cfg = NULL;
-char keyboard_file[256] = "/dev/input/event0";
+char keyboard_file[256] = "/dev/input/event1";
//unsigned char g_kick[524288];
//unsigned char g_ram[FASTSIZE + 1]; /* RAM */
//usleep(0);
// FIXME: Rework this to use keyboard events instead.
- /*while (get_key_char(&c)) {
+ while (get_key_char(&c)) {
if (c == cfg->keyboard_toggle_key && !kb_hook_enabled) {
kb_hook_enabled = 1;
printf("Keyboard hook enabled.\n");
cpu_emulation_running ^= 1;
printf("CPU emulation is now %s\n", cpu_emulation_running ? "running" : "stopped");
}
+ if (c == 'g') {
+ realtime_graphics_debug ^= 1;
+ printf("Real time graphics debug is now %s\n", realtime_graphics_debug ? "on" : "off");
+ }
if (c == 'R') {
cpu_pulse_reset();
m68k_pulse_reset();
goto stop_cpu_emulation;
}
}
- }*/
+ }
//gpio_handle_irq();
//GPIO_HANDLE_IRQ;
unsigned int target = 0; \
switch(cfg->platform->id) { \
case PLATFORM_AMIGA: { \
- if (address >= PIGFX_RTG_BASE && address < PIGFX_RTG_BASE + PIGFX_RTG_SIZE) { \
+ if (address >= PIGFX_RTG_BASE && address < PIGFX_UPPER) { \
return rtg_read((address & 0x0FFFFFFF), a); \
} \
if (custom_read_amiga(cfg, address, &target, a) != -1) { \
if (address >= cfg->custom_low && address < cfg->custom_high) { \
switch(cfg->platform->id) { \
case PLATFORM_AMIGA: { \
- if (address >= PIGFX_RTG_BASE && address < PIGFX_RTG_BASE + PIGFX_RTG_SIZE) { \
+ if (address >= PIGFX_RTG_BASE && address < PIGFX_UPPER) { \
rtg_write((address & 0x0FFFFFFF), value, a); \
return; \
} \
if (handle_modifier(&ie))
continue;
char ret = char_from_input_event(&ie);
- if (ret != 0) {
- *c = ret;
- return 1;
+ if (ie.value == 1 || ie.value == 2) {
+ if (ret != 0) {
+ *c = ret;
+ return 1;
+ }
}
}
}
cfg->custom_low = PIGFX_RTG_BASE;
else
cfg->custom_low = min(cfg->custom_low, PIGFX_RTG_BASE);
- cfg->custom_high = max(cfg->custom_high, PIGFX_RTG_BASE + PIGFX_RTG_SIZE);
+ cfg->custom_high = max(cfg->custom_high, PIGFX_UPPER);
}
printf("Platform custom range: %.8X-%.8X\n", cfg->custom_low, cfg->custom_high);
--- /dev/null
+#include <stdio.h>
+#include <stdint.h>
+#include <stdlib.h>
+#include <string.h>
+#include "../../../config_file/config_file.h"
+#ifndef FAKESTORM
+#include "../../../gpio/gpio.h"
+#endif
+#include "rtg.h"
+
+extern uint32_t rtg_address[8];
+extern uint32_t rtg_address_adj[8];
+extern uint8_t *rtg_mem; // FIXME
+extern uint16_t rtg_display_format;
+extern uint16_t rtg_user[8];
+extern uint16_t rtg_x[8], rtg_y[8];
+
+extern uint8_t realtime_graphics_debug;
+
+void rtg_fillrect(uint16_t x, uint16_t y, uint16_t w, uint16_t h, uint32_t color, uint16_t pitch, uint16_t format, uint8_t mask) {
+ if (mask) {}
+ uint8_t *dptr = &rtg_mem[rtg_address_adj[0] + (x << format) + (y * pitch)];
+ switch(format) {
+ case RTGFMT_8BIT: {
+ for (int xs = 0; xs < w; xs++) {
+ dptr[xs] = color & 0xFF;
+ }
+ break;
+ }
+ case RTGFMT_RBG565: {
+ color = htobe16((color & 0xFFFF));
+ uint16_t *ptr = (uint16_t *)dptr;
+ for (int xs = 0; xs < w; xs++) {
+ ptr[xs] = color;
+ }
+ break;
+ }
+ case RTGFMT_RGB32: {
+ color = htobe32(color);
+ uint32_t *ptr = (uint32_t *)dptr;
+ for (int xs = 0; xs < w; xs++) {
+ ptr[xs] = color;
+ }
+ break;
+ }
+ }
+ for (int ys = 1; ys < h; ys++) {
+ dptr += pitch;
+ memcpy(dptr, (void *)(size_t)(dptr - pitch), (w << format));
+ }
+}
+
+void rtg_invertrect(uint16_t x, uint16_t y, uint16_t w, uint16_t h, uint16_t pitch, uint16_t format, uint8_t mask) {
+ if (mask) {}
+ uint8_t *dptr = &rtg_mem[rtg_address_adj[0] + (x << format) + (y * pitch)];
+ for (int ys = 1; ys < h; ys++) {
+ switch(format) {
+ case RTGFMT_8BIT: {
+ for (int xs = 0; xs < w; xs++) {
+ dptr[xs] = ~dptr[xs];
+ }
+ break;
+ }
+ case RTGFMT_RBG565: {
+ for (int xs = 0; xs < w; xs++) {
+ ((uint16_t *)dptr)[xs] = ~((uint16_t *)dptr)[xs];
+ }
+ break;
+ }
+ case RTGFMT_RGB32: {
+ for (int xs = 0; xs < w; xs++) {
+ ((uint32_t *)dptr)[xs] = ~((uint32_t *)dptr)[xs];
+ }
+ break;
+ }
+ }
+ dptr += pitch;
+ }
+}
+
+void rtg_blitrect(uint16_t x, uint16_t y, uint16_t dx, uint16_t dy, uint16_t w, uint16_t h, uint16_t pitch, uint16_t format, uint8_t mask) {
+ if (mask) {}
+ uint8_t *sptr = &rtg_mem[rtg_address_adj[0] + (x << format) + (y * pitch)];
+ uint8_t *dptr = &rtg_mem[rtg_address_adj[0] + (dx << format) + (dy * pitch)];
+
+ uint32_t xdir = 1, pitchstep = pitch;
+
+ if (y < dy) {
+ pitchstep = -pitch;
+ sptr += ((h - 1) * pitch);
+ dptr += ((h - 1) * pitch);
+ }
+ if (x < dx) {
+ xdir = 0;
+ }
+
+ for (int ys = 0; ys < h; ys++) {
+ if (xdir)
+ memcpy(dptr, sptr, w << format);
+ else
+ memmove(dptr, sptr, w << format);
+ sptr += pitchstep;
+ dptr += pitchstep;
+ }
+}
+
+void rtg_blitrect_nomask_complete(uint16_t sx, uint16_t sy, uint16_t dx, uint16_t dy, uint16_t w, uint16_t h, uint16_t srcpitch, uint16_t dstpitch, uint32_t src_addr, uint32_t dst_addr, uint16_t format, uint8_t minterm) {
+ if (minterm) {}
+ uint8_t *sptr = &rtg_mem[src_addr - (PIGFX_RTG_BASE + PIGFX_REG_SIZE) + (sx << format) + (sy * srcpitch)];
+ uint8_t *dptr = &rtg_mem[dst_addr - (PIGFX_RTG_BASE + PIGFX_REG_SIZE) + (dx << format) + (dy * dstpitch)];
+
+ uint32_t xdir = 1, src_pitchstep = srcpitch, dst_pitchstep = dstpitch;
+
+ if (src_addr == dst_addr) {
+ if (sy < dy) {
+ src_pitchstep = -srcpitch;
+ sptr += ((h - 1) * srcpitch);
+ dst_pitchstep = -dstpitch;
+ dptr += ((h - 1) * dstpitch);
+ }
+ if (sx < dx) {
+ xdir = 0;
+ }
+ }
+
+ for (int ys = 0; ys < h; ys++) {
+ if (xdir)
+ memcpy(dptr, sptr, w << format);
+ else
+ memmove(dptr, sptr, w << format);
+ sptr += src_pitchstep;
+ dptr += dst_pitchstep;
+ }
+}
+
+extern struct emulator_config *cfg;
+
+void rtg_blittemplate(uint16_t x, uint16_t y, uint16_t w, uint16_t h, uint32_t src_addr, uint32_t fgcol, uint32_t bgcol, uint16_t pitch, uint16_t t_pitch, uint16_t format, uint16_t offset_x, uint8_t mask, uint8_t draw_mode) {
+ if (mask) {}
+
+ uint8_t *dptr = &rtg_mem[rtg_address_adj[1] + (x << format) + (y * pitch)];
+ uint8_t *sptr = NULL;
+ uint8_t cur_bit = 0, base_bit = 0, cur_byte = 0;
+ uint8_t invert = (draw_mode & DRAWMODE_INVERSVID);
+ uint16_t tmpl_x = 0;
+
+ draw_mode &= 0x03;
+
+ tmpl_x = offset_x / 8;
+ cur_bit = base_bit = (0x80 >> (offset_x % 8));
+
+ if (realtime_graphics_debug) {
+ printf("DEBUG: BlitTemplate - %d, %d (%dx%d)\n", x, y, w, h);
+ printf("Src: %.8X (%.8X)\n", src_addr, rtg_address_adj[0]);
+ printf("Dest: %.8X (%.8X)\n", rtg_address[1], rtg_address_adj[1]);
+ printf("pitch: %d t_pitch: %d format: %d\n", pitch, t_pitch, format);
+ printf("offset_x: %d mask: %.2X draw_mode: %d\n", offset_x, mask, draw_mode);
+ }
+
+ uint32_t fg_color[3] = {
+ (fgcol & 0xFF),
+ htobe16((fgcol & 0xFFFF)),
+ htobe32(fgcol),
+ };
+ uint32_t bg_color[3] = {
+ (bgcol & 0xFF),
+ htobe16((bgcol & 0xFFFF)),
+ htobe32(bgcol),
+ };
+
+ if (src_addr >= (PIGFX_RTG_BASE + PIGFX_REG_SIZE)) {
+ sptr = &rtg_mem[src_addr - (PIGFX_RTG_BASE + PIGFX_REG_SIZE)];
+ if (realtime_graphics_debug) {
+ printf("Origin: %.8X\n", rtg_address[2]);
+ printf("Grabbing data from RTG memory.\nData:\n");
+ for (int i = 0; i < h; i++) {
+ for (int j = 0; j < t_pitch; j++) {
+ printf("%.2X", sptr[j + (i * t_pitch)]);
+ }
+ printf("\n");
+ }
+#ifndef FAKESTORM
+ printf("Data available at origin:\n");
+ for (int i = 0; i < h; i++) {
+ for (int j = 0; j < w; j++) {
+ printf("%.2X", read8(rtg_address[2] + j + (i * t_pitch)));
+ }
+ printf("\n");
+ }
+#endif
+ }
+ }
+ else {
+ int i = get_mapped_item_by_address(cfg, src_addr);
+ if (i != -1) {
+ sptr = &cfg->map_data[i][src_addr - cfg->map_offset[i]];
+ if (realtime_graphics_debug) {
+ printf("Grabbing data from maping %d - offset %.8X\nData:\n", i, src_addr - cfg->map_offset[i]);
+ for (int i = 0; i < h; i++) {
+ for (int j = 0; j < t_pitch; j++) {
+ printf("%.2X", sptr[j + (i * t_pitch)]);
+ }
+ printf("\n");
+ }
+ }
+ }
+ else {
+ printf("BlitTemplate: Failed to find mapped range for address %.8X\n", src_addr);
+ return;
+ }
+ }
+
+ switch (draw_mode) {
+ case DRAWMODE_JAM1:
+ for (uint16_t ys = 0; ys < h; ys++) {
+ cur_byte = (invert) ? sptr[tmpl_x] ^ 0xFF : sptr[tmpl_x];
+
+ for (int xs = 0; xs < w; xs++) {
+ if (w >= 8 && cur_bit == 0x80 && xs < w - 8) {
+ SET_RTG_PIXELS(&dptr[xs << format], fg_color[format], format);
+ xs += 7;
+ }
+ else {
+ while (cur_bit > 0 && xs < w) {
+ if (cur_byte & cur_bit) {
+ SET_RTG_PIXEL(&dptr[xs << format], fg_color[format], format);
+ }
+ xs++;
+ cur_bit >>= 1;
+ }
+ xs--;
+ cur_bit = 0x80;
+ }
+ TEMPLATE_LOOPX;
+ }
+ TEMPLATE_LOOPY;
+ }
+ return;
+ case DRAWMODE_JAM2:
+ for (uint16_t ys = 0; ys < h; ys++) {
+ cur_byte = (invert) ? sptr[tmpl_x] ^ 0xFF : sptr[tmpl_x];
+
+ for (int xs = 0; xs < w; xs++) {
+ if (w >= 8 && cur_bit == 0x80 && xs < w - 8) {
+ SET_RTG_PIXELS2_COND(&dptr[xs << format], fg_color[format], bg_color[format], format);
+ xs += 7;
+ }
+ else {
+ while (cur_bit > 0 && xs < w) {
+ if (cur_byte & cur_bit) {
+ SET_RTG_PIXEL(&dptr[xs << format], fg_color[format], format);
+ }
+ else {
+ SET_RTG_PIXEL(&dptr[xs << format], bg_color[format], format);
+ }
+ xs++;
+ cur_bit >>= 1;
+ }
+ xs--;
+ cur_bit = 0x80;
+ }
+ TEMPLATE_LOOPX;
+ }
+ TEMPLATE_LOOPY;
+ }
+ return;
+ case DRAWMODE_COMPLEMENT:
+ for (uint16_t ys = 0; ys < h; ys++) {
+ cur_byte = (invert) ? sptr[tmpl_x] ^ 0xFF : sptr[tmpl_x];
+
+ for (int xs = 0; xs < w; xs++) {
+ if (w >= 8 && cur_bit == 0x80 && xs < w - 8) {
+ INVERT_RTG_PIXELS(&dptr[xs << format], format)
+ xs += 7;
+ }
+ else {
+ while (cur_bit > 0 && xs < w) {
+ if (cur_byte & cur_bit) {
+ INVERT_RTG_PIXEL(&dptr[xs << format], format)
+ }
+ xs++;
+ cur_bit >>= 1;
+ }
+ xs--;
+ cur_bit = 0x80;
+ }
+ TEMPLATE_LOOPX;
+ }
+ TEMPLATE_LOOPY;
+ }
+ return;
+ }
+}
+
+void rtg_blitpattern(uint16_t x, uint16_t y, uint16_t w, uint16_t h, uint32_t src_addr, uint32_t fgcol, uint32_t bgcol, uint16_t pitch, uint16_t format, uint16_t offset_x, uint16_t offset_y, uint8_t mask, uint8_t draw_mode, uint8_t loop_rows) {
+ if (mask) {}
+
+ uint8_t *dptr = &rtg_mem[rtg_address_adj[1] + (x << format) + (y * pitch)];
+ uint8_t *sptr = NULL, *sptr_base = NULL;
+ uint8_t cur_bit = 0, base_bit = 0, cur_byte = 0;
+ uint8_t invert = (draw_mode & DRAWMODE_INVERSVID);
+ uint16_t tmpl_x = 0;
+
+ draw_mode &= 0x03;
+
+ tmpl_x = (offset_x / 8) % 2;
+ cur_bit = base_bit = (0x80 >> (offset_x % 8));
+
+ uint32_t fg_color[3] = {
+ (fgcol & 0xFF),
+ htobe16((fgcol & 0xFFFF)),
+ htobe32(fgcol),
+ };
+ uint32_t bg_color[3] = {
+ (bgcol & 0xFF),
+ htobe16((bgcol & 0xFFFF)),
+ htobe32(bgcol),
+ };
+
+
+ if (src_addr >= (PIGFX_RTG_BASE + PIGFX_REG_SIZE))
+ sptr = &rtg_mem[src_addr - (PIGFX_RTG_BASE + PIGFX_REG_SIZE)];
+ else {
+ int i = get_mapped_item_by_address(cfg, src_addr);
+ if (i != -1) {
+ sptr = &cfg->map_data[i][src_addr - cfg->map_offset[i]];
+ }
+ else {
+ printf("BlitPattern: Failed to find mapped range for address %.8X\n", src_addr);
+ return;
+ }
+ }
+
+ sptr_base = sptr;
+ sptr += (offset_y % loop_rows) * 2;
+
+ switch (draw_mode) {
+ case DRAWMODE_JAM1:
+ for (uint16_t ys = 0; ys < h; ys++) {
+ cur_byte = (invert) ? sptr[tmpl_x] ^ 0xFF : sptr[tmpl_x];
+
+ for (int xs = 0; xs < w; xs++) {
+ if (w >= 8 && cur_bit == 0x80 && xs < w - 8) {
+ SET_RTG_PIXELS(&dptr[xs << format], fg_color[format], format);
+ xs += 7;
+ }
+ else {
+ while (cur_bit > 0 && xs < w) {
+ if (cur_byte & cur_bit) {
+ SET_RTG_PIXEL(&dptr[xs << format], fg_color[format], format);
+ }
+ xs++;
+ cur_bit >>= 1;
+ }
+ xs--;
+ cur_bit = 0x80;
+ }
+ PATTERN_LOOPX;
+ }
+ PATTERN_LOOPY;
+ }
+ return;
+ case DRAWMODE_JAM2:
+ for (uint16_t ys = 0; ys < h; ys++) {
+ cur_byte = (invert) ? sptr[tmpl_x] ^ 0xFF : sptr[tmpl_x];
+
+ for (int xs = 0; xs < w; xs++) {
+ if (w >= 8 && cur_bit == 0x80 && xs < w - 8) {
+ SET_RTG_PIXELS2_COND(&dptr[xs << format], fg_color[format], bg_color[format], format);
+ xs += 7;
+ }
+ else {
+ while (cur_bit > 0 && xs < w) {
+ if (cur_byte & cur_bit) {
+ SET_RTG_PIXEL(&dptr[xs << format], fg_color[format], format);
+ }
+ else {
+ SET_RTG_PIXEL(&dptr[xs << format], bg_color[format], format);
+ }
+ xs++;
+ cur_bit >>= 1;
+ }
+ xs--;
+ cur_bit = 0x80;
+ }
+ PATTERN_LOOPX;
+ }
+ PATTERN_LOOPY;
+ }
+ return;
+ case DRAWMODE_COMPLEMENT:
+ for (uint16_t ys = 0; ys < h; ys++) {
+ cur_byte = (invert) ? sptr[tmpl_x] ^ 0xFF : sptr[tmpl_x];
+
+ for (int xs = 0; xs < w; xs++) {
+ if (w >= 8 && cur_bit == 0x80 && xs < w - 8) {
+ INVERT_RTG_PIXELS(&dptr[xs << format], format)
+ xs += 7;
+ }
+ else {
+ while (cur_bit > 0 && xs < w) {
+ if (cur_byte & cur_bit) {
+ INVERT_RTG_PIXEL(&dptr[xs << format], format)
+ }
+ xs++;
+ cur_bit >>= 1;
+ }
+ xs--;
+ cur_bit = 0x80;
+ }
+ PATTERN_LOOPX;
+ }
+ PATTERN_LOOPY;
+ }
+ return;
+ }
+}
+
+void rtg_drawline_solid(int16_t x1_, int16_t y1_, int16_t x2_, int16_t y2_, uint16_t len, uint32_t fgcol, uint16_t pitch, uint16_t format) {
+ int16_t x1 = x1_, y1 = y1_;
+ int16_t x2 = x1_ + x2_, y2 = y1 + y2_;
+
+ uint32_t fg_color[3] = {
+ (fgcol & 0xFF),
+ htobe16((fgcol & 0xFFFF)),
+ htobe32(fgcol),
+ };
+
+ uint8_t *dptr = &rtg_mem[rtg_address_adj[0] + (y1 * pitch)];
+
+ int32_t line_step = pitch;
+ int8_t x_step = 1;
+
+ int16_t dx, dy, dx_abs, dy_abs, ix, iy, x = x1;
+
+ if (x2 < x1)
+ x_step = -1;
+ if (y2 < y1)
+ line_step = -pitch;
+
+ dx = x2 - x1;
+ dy = y2 - y1;
+ dx_abs = abs(dx);
+ dy_abs = abs(dy);
+ ix = dy_abs >> 1;
+ iy = dx_abs >> 1;
+
+ SET_RTG_PIXEL(&dptr[x << format], fg_color[format], format);
+
+ if (dx_abs >= dy_abs) {
+ if (!len) len = dx_abs;
+ for (uint16_t i = 0; i < len; i++) {
+ iy += dy_abs;
+ if (iy >= dx_abs) {
+ iy -= dx_abs;
+ dptr += line_step;
+ }
+ x += x_step;
+
+ SET_RTG_PIXEL(&dptr[x << format], fg_color[format], format);
+ }
+ }
+ else {
+ if (!len) len = dy_abs;
+ for (uint16_t i = 0; i < len; i++) {
+ ix += dx_abs;
+ if (ix >= dy_abs) {
+ ix -= dy_abs;
+ x += x_step;
+ }
+ dptr += line_step;
+
+ SET_RTG_PIXEL(&dptr[x << format], fg_color[format], format);
+ }
+ }
+}
+
+#define DRAW_LINE_PIXEL \
+ if (pattern & cur_bit) { \
+ if (invert) { INVERT_RTG_PIXEL(&dptr[x << format], format) } \
+ else { \
+ if (mask == 0xFF || format != RTGFMT_8BIT) { SET_RTG_PIXEL(&dptr[x << format], fg_color[format], format); } \
+ else { SET_RTG_PIXEL_MASK(&dptr[x << format], fg_color[format], format); } \
+ } \
+ } \
+ else if (draw_mode == DRAWMODE_JAM2) { \
+ if (invert) { INVERT_RTG_PIXEL(&dptr[x << format], format) } \
+ else { \
+ if (mask == 0xFF || format != RTGFMT_8BIT) { SET_RTG_PIXEL(&dptr[x << format], bg_color[format], format); } \
+ else { SET_RTG_PIXEL_MASK(&dptr[x << format], bg_color[format], format); } \
+ } \
+ } \
+ if ((cur_bit >>= 1) == 0) \
+ cur_bit = 0x8000;
+
+void rtg_drawline (int16_t x1_, int16_t y1_, int16_t x2_, int16_t y2_, uint16_t len, uint16_t pattern, uint16_t pattern_offset, uint32_t fgcol, uint32_t bgcol, uint16_t pitch, uint16_t format, uint8_t mask, uint8_t draw_mode) {
+ if (pattern_offset) {}
+
+ int16_t x1 = x1_, y1 = y1_;
+ int16_t x2 = x1_ + x2_, y2 = y1 + y2_;
+ uint16_t cur_bit = 0x8000;
+ uint32_t color_mask = 0xFFFF0000;
+ uint8_t invert = 0;
+
+ uint32_t fg_color[3] = {
+ (fgcol & 0xFF),
+ htobe16((fgcol & 0xFFFF)),
+ htobe32(fgcol),
+ };
+ uint32_t bg_color[3] = {
+ (bgcol & 0xFF),
+ htobe16((bgcol & 0xFFFF)),
+ htobe32(bgcol),
+ };
+
+ uint8_t *dptr = &rtg_mem[rtg_address_adj[0] + (y1 * pitch)];
+
+ int32_t line_step = pitch;
+ int8_t x_step = 1;
+
+ int16_t dx, dy, dx_abs, dy_abs, ix, iy, x = x1;
+
+ if (x2 < x1)
+ x_step = -1;
+ if (y2 < y1)
+ line_step = -pitch;
+
+ dx = x2 - x1;
+ dy = y2 - y1;
+ dx_abs = abs(dx);
+ dy_abs = abs(dy);
+ ix = dy_abs >> 1;
+ iy = dx_abs >> 1;
+
+ if (draw_mode & DRAWMODE_INVERSVID)
+ pattern = ~pattern;
+ if (draw_mode & DRAWMODE_COMPLEMENT) {
+ invert = 1;
+ }
+ draw_mode &= 0x01;
+
+ DRAW_LINE_PIXEL;
+
+ if (dx_abs >= dy_abs) {
+ if (!len) len = dx_abs;
+ for (uint16_t i = 0; i < len; i++) {
+ iy += dy_abs;
+ if (iy >= dx_abs) {
+ iy -= dx_abs;
+ dptr += line_step;
+ }
+ x += x_step;
+
+ DRAW_LINE_PIXEL;
+ }
+ }
+ else {
+ if (!len) len = dy_abs;
+ for (uint16_t i = 0; i < len; i++) {
+ ix += dx_abs;
+ if (ix >= dy_abs) {
+ ix -= dy_abs;
+ x += x_step;
+ }
+ dptr += line_step;
+
+ DRAW_LINE_PIXEL;
+ }
+ }
+}
+
+#define HANDLE_MINTERM_PIXEL_8(s, d, f) \
+ switch(draw_mode) {\
+ case MINTERM_NOR: \
+ s &= ~(d); \
+ SET_RTG_PIXEL_MASK(&d, s, f); break; \
+ case MINTERM_ONLYDST: \
+ d = d & ~(s); break; \
+ case MINTERM_NOTSRC: \
+ SET_RTG_PIXEL_MASK(&d, s, f); break; \
+ case MINTERM_ONLYSRC: \
+ s &= (d ^ 0xFF); \
+ SET_RTG_PIXEL_MASK(&d, s, f); break; \
+ case MINTERM_INVERT: \
+ d ^= 0xFF; break; \
+ case MINTERM_EOR: \
+ d ^= s; break; \
+ case MINTERM_NAND: \
+ s = ~(d & ~(s)) & mask; \
+ SET_RTG_PIXEL_MASK(&d, s, f); break; \
+ case MINTERM_AND: \
+ s &= d; \
+ SET_RTG_PIXEL_MASK(&d, s, f); break; \
+ case MINTERM_NEOR: \
+ d ^= (s & mask); break; \
+ case MINTERM_DST: /* This one does nothing. */ \
+ return; break; \
+ case MINTERM_NOTONLYSRC: \
+ d |= (s & mask); break; \
+ case MINTERM_SRC: \
+ SET_RTG_PIXEL_MASK(&d, s, f); break; \
+ case MINTERM_NOTONLYDST: \
+ s = ~(d & s) & mask; \
+ SET_RTG_PIXEL_MASK(&d, s, f); break; \
+ case MINTERM_OR: \
+ d |= (s & mask); break; \
+ }
+
+
+#define DECODE_PLANAR_PIXEL(a) \
+ switch (planes) { \
+ case 8: if (layer_mask & 0x80 && bmp_data[(plane_size * 7) + cur_byte] & cur_bit) a |= 0x80; \
+ case 7: if (layer_mask & 0x40 && bmp_data[(plane_size * 6) + cur_byte] & cur_bit) a |= 0x40; \
+ case 6: if (layer_mask & 0x20 && bmp_data[(plane_size * 5) + cur_byte] & cur_bit) a |= 0x20; \
+ case 5: if (layer_mask & 0x10 && bmp_data[(plane_size * 4) + cur_byte] & cur_bit) a |= 0x10; \
+ case 4: if (layer_mask & 0x08 && bmp_data[(plane_size * 3) + cur_byte] & cur_bit) a |= 0x08; \
+ case 3: if (layer_mask & 0x04 && bmp_data[(plane_size * 2) + cur_byte] & cur_bit) a |= 0x04; \
+ case 2: if (layer_mask & 0x02 && bmp_data[plane_size + cur_byte] & cur_bit) a |= 0x02; \
+ case 1: if (layer_mask & 0x01 && bmp_data[cur_byte] & cur_bit) a |= 0x01; \
+ break; \
+ }
+
+#define DECODE_INVERTED_PLANAR_PIXEL(a) \
+ switch (planes) { \
+ case 8: if (layer_mask & 0x80 && (bmp_data[(plane_size * 7) + cur_byte] ^ 0xFF) & cur_bit) a |= 0x80; \
+ case 7: if (layer_mask & 0x40 && (bmp_data[(plane_size * 6) + cur_byte] ^ 0xFF) & cur_bit) a |= 0x40; \
+ case 6: if (layer_mask & 0x20 && (bmp_data[(plane_size * 5) + cur_byte] ^ 0xFF) & cur_bit) a |= 0x20; \
+ case 5: if (layer_mask & 0x10 && (bmp_data[(plane_size * 4) + cur_byte] ^ 0xFF) & cur_bit) a |= 0x10; \
+ case 4: if (layer_mask & 0x08 && (bmp_data[(plane_size * 3) + cur_byte] ^ 0xFF) & cur_bit) a |= 0x08; \
+ case 3: if (layer_mask & 0x04 && (bmp_data[(plane_size * 2) + cur_byte] ^ 0xFF) & cur_bit) a |= 0x04; \
+ case 2: if (layer_mask & 0x02 && (bmp_data[plane_size + cur_byte] ^ 0xFF) & cur_bit) a |= 0x02; \
+ case 1: if (layer_mask & 0x01 && (bmp_data[cur_byte] ^ 0xFF) & cur_bit) a |= 0x01; \
+ break; \
+ }
+
+void rtg_p2c (int16_t sx, int16_t sy, int16_t dx, int16_t dy, int16_t w, int16_t h, uint8_t draw_mode, uint8_t planes, uint8_t mask, uint8_t layer_mask, uint16_t src_line_pitch, uint8_t *bmp_data_src) {
+ uint16_t pitch = rtg_x[3];
+ uint8_t *dptr = &rtg_mem[rtg_address_adj[0] + (dy * pitch)];
+
+ uint8_t cur_bit, base_bit, base_byte;
+ uint16_t cur_byte = 0, u8_fg = 0;
+ uint32_t color_mask = 0xFFFFFFFF;
+
+ uint32_t plane_size = src_line_pitch * h;
+ uint8_t *bmp_data = bmp_data_src;
+
+ cur_bit = base_bit = (0x80 >> (sx % 8));
+ cur_byte = base_byte = ((sx / 8) % src_line_pitch);
+
+ if (realtime_graphics_debug) {
+ printf("P2C: %d,%d - %d,%d (%dx%d) %d, %.2X\n", sx, sy, dx, dy, w, h, planes, layer_mask);
+ printf("Mask: %.2X Minterm: %.2X\n", mask, draw_mode);
+ printf("Pitch: %d Src Pitch: %d (!!!: %.4X)\n", pitch, src_line_pitch, rtg_user[0]);
+ printf("Curbyte: %d Curbit: %d\n", cur_byte, cur_bit);
+ printf("Plane size: %d Total size: %d (%X)\n", plane_size, plane_size * planes, plane_size * planes);
+ printf("Source: %.8X - %.8X\n", rtg_address[1], rtg_address_adj[1]);
+ printf("Target: %.8X - %.8X\n", rtg_address[0], rtg_address_adj[0]);
+ fflush(stdout);
+
+ printf("Grabbing data from RTG memory.\nData:\n");
+ for (int i = 0; i < h; i++) {
+ for (int k = 0; k < planes; k++) {
+ for (int j = 0; j < src_line_pitch; j++) {
+ printf("%.2X", bmp_data_src[j + (i * src_line_pitch) + (plane_size * k)]);
+ }
+ printf(" ");
+ }
+ printf("\n");
+ }
+ }
+
+ for (int16_t line_y = 0; line_y < h; line_y++) {
+ for (int16_t x = dx; x < dx + w; x++) {
+ u8_fg = 0;
+ if (draw_mode & 0x01) {
+ DECODE_INVERTED_PLANAR_PIXEL(u8_fg)
+ }
+ else {
+ DECODE_PLANAR_PIXEL(u8_fg)
+ }
+
+ if (mask == 0xFF && (draw_mode == MINTERM_SRC || draw_mode == MINTERM_NOTSRC)) {
+ dptr[x] = u8_fg;
+ goto skip;
+ }
+
+ //HANDLE_MINTERM_PIXEL_8(u8_fg, ((uint8_t *)dptr)[x]);
+ HANDLE_MINTERM_PIXEL_8(u8_fg, dptr[x], rtg_display_format);
+
+ skip:;
+ if ((cur_bit >>= 1) == 0) {
+ cur_bit = 0x80;
+ cur_byte++;
+ cur_byte %= src_line_pitch;
+ }
+
+ }
+ dptr += pitch;
+ if ((line_y + sy + 1) % h)
+ bmp_data += src_line_pitch;
+ else
+ bmp_data = bmp_data_src;
+ cur_bit = base_bit;
+ cur_byte = base_byte;
+ }
+}
+
+//void rtg_p2c_broken(int16_t sx, int16_t sy, int16_t dx, int16_t dy, int16_t w, int16_t h, uint16_t pitch, uint8_t mask, uint8_t minterm, uint8_t depth, uint16_t planemask_) {
+ /*uint8_t *planeptr_src = &rtg_mem[rtg_address_adj[1]];
+ uint8_t *dptr = &rtg_mem[rtg_address_adj[0] + (dy * pitch)];
+
+ uint8_t cur_bit, base_bit, base_byte;
+ uint16_t cur_byte = 0;//, color = 0;
+ uint16_t srcpitch = rtg_user[1];
+ uint32_t plane_size = srcpitch * rtg_y[3];
+ uint32_t color_mask = 0x00FFFFFF;
+ uint8_t color = 0;
+
+ uint8_t planemask = planemask_ & 0xFF;
+ uint8_t planemask_0 = (planemask_ >> 8);
+
+ cur_bit = base_bit = (0x80 >> (sx % 8));
+ cur_byte = base_byte = ((sx / 8) % srcpitch);
+
+ planeptr_src += (srcpitch * sy);
+
+ if (realtime_graphics_debug) {
+ uint8_t *sptr = NULL;
+
+ printf("P2C: %d,%d - %d,%d (%dx%d) %d, %.4X\n", sx, sy, dx, dy, w, h, depth, planemask_);
+ printf("Mask: %.2X Minterm: %.2X\n", mask, minterm);
+ printf("Pitch: %d Src Pitch: %d (!!!: %d)\n", pitch, srcpitch, rtg_user[1]);
+ printf("Curbyte: %d Curbit: %d\n", cur_byte, cur_bit);
+ printf("Plane size: %d Total size: %d (%X)\n", plane_size, plane_size * depth, plane_size * depth);
+ printf("Source: %.8X - %.8X\n", rtg_address[1], rtg_address_adj[1]);
+ printf("Target: %.8X - %.8X\n", rtg_address[0], rtg_address_adj[0]);
+ fflush(stdout);
+
+ printf("Origin: %.8X\n", rtg_address[2]);
+ printf("Grabbing data from RTG memory.\nData:\n");
+ for (int i = 0; i < h; i++) {
+ for (int k = 0; k < depth; k++) {
+ for (int j = 0; j < srcpitch; j++) {
+ printf("%.2X", planeptr_src[j + (i * srcpitch) + (plane_size * k)]);
+ }
+ printf(" ");
+ }
+ printf("\n");
+ }
+#ifndef FAKESTORM
+ printf("Data available at origin:\n");
+ for (int i = 0; i < h; i++) {
+ for (int k = 0; k < depth; k++) {
+ for (int j = 0; j < srcpitch; j++) {
+ printf("%.2X", read8(rtg_address[2] + j + (i * srcpitch) + (plane_size * k)));
+ }
+ printf(" ");
+ }
+ printf("\n");
+ }
+#endif
+ }
+
+ for (int16_t line_y = 0; line_y < h; line_y++) {
+ for (int16_t xs = dx; xs < dx + w; xs++) {
+ color = 0;
+ if (minterm & 0x01) {
+ //printf("Decode inverted planar pixel.\n");
+ DECODE_INVERTED_PLANAR_PIXEL(color, planeptr_src);
+ }
+ else {
+ //printf("Decode planar pixel.\n");
+ DECODE_PLANAR_PIXEL(color, planeptr_src);
+ }
+
+ if (mask == 0xFF && (minterm == MINTERM_SRC || minterm == MINTERM_NOTSRC)) {
+ dptr[xs << rtg_display_format] = color;
+ goto skip;
+ }
+
+ //printf("Place pixel.\n");
+ HANDLE_MINTERM_PIXEL_8(color, dptr[xs << rtg_display_format], rtg_display_format);
+
+ skip:;
+ if ((cur_bit >>= 1) == 0) {
+ cur_bit = 0x80;
+ cur_byte++;
+ cur_byte %= srcpitch;
+ }
+ }
+ dptr += pitch;
+ //if (line_y + sy + 1 == rtg_y[3])
+ //planeptr_src = &rtg_mem[rtg_address_adj[1]];// + (srcpitch * sy);
+ //else
+ planeptr_src += srcpitch;
+ cur_bit = base_bit;
+ cur_byte = base_byte;
+ }*/
+//}
break;
}
+ uint64_t frame_start = 0, frame_end = 0;
+ float elapsed = 0.0f;
+
while (1) {
if (renderer && win && img) {
+ frame_start = SDL_GetPerformanceCounter();
SDL_RenderClear(renderer);
if (*data->running) {
switch (format) {
SDL_RenderCopy(renderer, img, NULL, NULL);
}
SDL_RenderPresent(renderer);
- usleep(16667); //ghetto 60hz
+ //usleep(16667); //ghetto 60hz
if (height != *data->height || width != *data->width || format != *data->format) {
printf("Reinitializing due to something change.\n");
reinit = 1;
}
break;
}
+ frame_end = SDL_GetPerformanceCounter();
+ elapsed = (frame_end - frame_start) / (float)SDL_GetPerformanceFrequency() * 1000.0f;
+ SDL_Delay(floor(16.66666f - elapsed));
}
else
break;
#include "rtg.h"
#include "../../../config_file/config_file.h"
-static uint8_t rtg_u8[4];
-static uint16_t rtg_x[8], rtg_y[8];
-static uint16_t rtg_user[8];
-static uint16_t rtg_format;
-static uint32_t rtg_address[2];
-static uint32_t rtg_address_adj[2];
-static uint32_t rtg_rgb[2];
+uint8_t rtg_u8[4];
+uint16_t rtg_x[8], rtg_y[8];
+uint16_t rtg_user[8];
+uint16_t rtg_format;
+uint32_t rtg_address[8];
+uint32_t rtg_address_adj[8];
+uint32_t rtg_rgb[8];
static uint8_t display_enabled = 0xFF;
static void handle_rtg_command(uint32_t cmd);
static struct timespec f1, f2;
+uint8_t realtime_graphics_debug = 0;
+extern int cpu_emulation_running;
+
static const char *op_type_names[OP_TYPE_NUM] = {
"BYTE",
"WORD",
};
int init_rtg_data() {
- rtg_mem = calloc(1, 32 * SIZE_MEGA);
+ rtg_mem = calloc(1, 40 * SIZE_MEGA);
if (!rtg_mem) {
printf("Failed to allocate RTG video memory.\n");
return 0;
unsigned int rtg_read(uint32_t address, uint8_t mode) {
//printf("%s read from RTG: %.8X\n", op_type_names[mode], address);
if (address >= PIGFX_REG_SIZE) {
- if (rtg_mem) {
+ if (rtg_mem && (address - PIGFX_REG_SIZE) < PIGFX_UPPER) {
switch (mode) {
case OP_TYPE_BYTE:
return (rtg_mem[address - PIGFX_REG_SIZE]);
/*if ((address - PIGFX_REG_SIZE) < framebuffer_addr) {// || (address - PIGFX_REG_SIZE) > framebuffer_addr + ((rtg_display_width << rtg_display_format) * rtg_display_height)) {
printf("Write to RTG memory outside frame buffer %.8X (%.8X).\n", (address - PIGFX_REG_SIZE), framebuffer_addr);
}*/
- if (rtg_mem) {
+ if (rtg_mem && (address - PIGFX_REG_SIZE) < PIGFX_UPPER) {
switch (mode) {
case OP_TYPE_BYTE:
rtg_mem[address - PIGFX_REG_SIZE] = value;
rtg_address[1] = value;
rtg_address_adj[1] = value - (PIGFX_RTG_BASE + PIGFX_REG_SIZE);
break;
+ CHKREG(RTG_ADDR3, rtg_address[2]);
+ CHKREG(RTG_ADDR4, rtg_address[3]);
CHKREG(RTG_RGB1, rtg_rgb[0]);
CHKREG(RTG_RGB2, rtg_rgb[1]);
}
return;
}
+#define gdebug(a) if (realtime_graphics_debug) { printf(a); m68k_end_timeslice(); cpu_emulation_running = 0; }
+
static void handle_rtg_command(uint32_t cmd) {
//printf("Handling RTG command %d (%.8X)\n", cmd, cmd);
switch (cmd) {
break;
case RTGCMD_FILLRECT:
rtg_fillrect(rtg_x[0], rtg_y[0], rtg_x[1], rtg_y[1], rtg_rgb[0], rtg_x[2], rtg_format, 0xFF);
+ gdebug("FillRect\n");
+ break;
+ case RTGCMD_INVERTRECT:
+ rtg_invertrect(rtg_x[0], rtg_y[0], rtg_x[1], rtg_y[1], rtg_x[2], rtg_format, 0xFF);
+ gdebug("InvertRect\n");
break;
case RTGCMD_BLITRECT:
rtg_blitrect(rtg_x[0], rtg_y[0], rtg_x[1], rtg_y[1], rtg_x[2], rtg_y[2], rtg_x[3], rtg_format, 0xFF);
+ gdebug("BlitRect\n");
break;
case RTGCMD_BLITRECT_NOMASK_COMPLETE:
- rtg_blitrect_nomask_complete(rtg_x[0], rtg_y[0], rtg_x[1], rtg_y[1], rtg_x[2], rtg_y[2], rtg_x[3], rtg_x[4], rtg_address[0], rtg_address[1], rtg_display_format, rtg_u8[0]);
+ rtg_blitrect_nomask_complete(rtg_x[0], rtg_y[0], rtg_x[1], rtg_y[1], rtg_x[2], rtg_y[2], rtg_x[3], rtg_x[4], rtg_address[0], rtg_address[1], rtg_format, rtg_u8[0]);
+ gdebug("BlitRectNoMaskComplete\n");
break;
case RTGCMD_BLITPATTERN:
- rtg_blitpattern(rtg_x[0], rtg_y[0], rtg_x[1], rtg_y[1], rtg_address[0], rtg_rgb[0], rtg_rgb[1], rtg_x[3], rtg_display_format, rtg_x[2], rtg_y[2], rtg_u8[0], rtg_u8[1], rtg_u8[2]);
+ rtg_blitpattern(rtg_x[0], rtg_y[0], rtg_x[1], rtg_y[1], rtg_address[0], rtg_rgb[0], rtg_rgb[1], rtg_x[3], rtg_format, rtg_x[2], rtg_y[2], rtg_u8[0], rtg_u8[1], rtg_u8[2]);
+ gdebug("BlitPattern\n");
return;
case RTGCMD_BLITTEMPLATE:
- rtg_blittemplate(rtg_x[0], rtg_y[0], rtg_x[1], rtg_y[1], rtg_address[0], rtg_rgb[0], rtg_rgb[1], rtg_x[3], rtg_x[4], rtg_display_format, rtg_x[2], rtg_u8[0], rtg_u8[1]);
+ rtg_blittemplate(rtg_x[0], rtg_y[0], rtg_x[1], rtg_y[1], rtg_address[0], rtg_rgb[0], rtg_rgb[1], rtg_x[3], rtg_x[4], rtg_format, rtg_x[2], rtg_u8[0], rtg_u8[1]);
+ gdebug("BlitTemplate\n");
break;
- }
-}
-
-void rtg_fillrect(uint16_t x, uint16_t y, uint16_t w, uint16_t h, uint32_t color, uint16_t pitch, uint16_t format, uint8_t mask) {
- if (mask) {}
- uint8_t *dptr = &rtg_mem[rtg_address_adj[0] + (x << format) + (y * pitch)];
- //printf("FillRect: %d,%d to %d,%d C%.8X, p:%d dp: %d m:%.2X\n", x, y, x+w, y+h, color, pitch, rtg_pitch, mask);
- //printf("%.8X - %.8X (%p) (%p)\n", framebuffer_addr, rtg_address_adj[0], rtg_mem, dptr);
- switch(format) {
- case RTGFMT_8BIT: {
- //printf("Incoming 8-bit color: %.8X\n", color);
- for (int xs = 0; xs < w; xs++) {
- dptr[xs] = color & 0xFF;
- }
+ case RTGCMD_DRAWLINE:
+ if (rtg_u8[0] == 0xFF && rtg_y[2] == 0xFFFF)
+ rtg_drawline_solid(rtg_x[0], rtg_y[0], rtg_x[1], rtg_y[1], rtg_x[2], rtg_rgb[0], rtg_x[3], rtg_format);
+ else
+ rtg_drawline(rtg_x[0], rtg_y[0], rtg_x[1], rtg_y[1], rtg_x[2], rtg_y[2], rtg_x[4], rtg_rgb[0], rtg_rgb[1], rtg_x[3], rtg_format, rtg_u8[0], rtg_u8[1]);
+ gdebug("DrawLine\n");
break;
- }
- case RTGFMT_RBG565: {
- //printf("Incoming raw 16-bit color: %.8X\n", htobe32(color));
- color = htobe16((color & 0xFFFF));
- //printf("Incoming 16-bit color: %.8X\n", color);
- uint16_t *ptr = (uint16_t *)dptr;
- for (int xs = 0; xs < w; xs++) {
- ptr[xs] = color;
- }
+ case RTGCMD_P2C:
+ rtg_p2c(rtg_x[0], rtg_y[0], rtg_x[1], rtg_y[1], rtg_x[2], rtg_y[2], rtg_u8[1], rtg_u8[2], rtg_u8[0], (rtg_user[0] >> 0x8), rtg_x[4], (uint8_t *)&rtg_mem[rtg_address_adj[1]]);
+ //rtg_p2c_broken(rtg_x[0], rtg_y[0], rtg_x[1], rtg_y[1], rtg_x[2], rtg_y[2], rtg_x[3], rtg_u8[0], rtg_u8[1], rtg_u8[2], rtg_user[0]);
+ gdebug("Planar2Chunky\n");
break;
- }
- case RTGFMT_RGB32: {
- color = htobe32(color);
- //printf("Incoming 32-bit color: %.8X\n", color);
- uint32_t *ptr = (uint32_t *)dptr;
- for (int xs = 0; xs < w; xs++) {
- ptr[xs] = color;
- }
+ case RTGCMD_P2D:
break;
- }
- }
- for (int ys = 1; ys < h; ys++) {
- dptr += pitch;
- memcpy(dptr, (void *)(size_t)(dptr - pitch), (w << format));
- }
- //printf("FillRect done.\n");
-}
-
-void rtg_blitrect(uint16_t x, uint16_t y, uint16_t dx, uint16_t dy, uint16_t w, uint16_t h, uint16_t pitch, uint16_t format, uint8_t mask) {
- if (mask) {}
- //printf("BlitRect: %d,%d to %d,%d (%dx%d) p:%d dp: %d\n", x, y, dx, dy, w, h, pitch, rtg_pitch);
- uint8_t *sptr = &rtg_mem[rtg_address_adj[0] + (x << format) + (y * pitch)];
- uint8_t *dptr = &rtg_mem[rtg_address_adj[0] + (dx << format) + (dy * pitch)];
-
- uint32_t xdir = 1, pitchstep = pitch;
-
- if (y < dy) {
- pitchstep = -pitch;
- sptr += ((h - 1) * pitch);
- dptr += ((h - 1) * pitch);
- }
- if (x < dx) {
- xdir = 0;
- }
-
- for (int ys = 0; ys < h; ys++) {
- if (xdir)
- memcpy(dptr, sptr, w << format);
- else
- memmove(dptr, sptr, w << format);
- sptr += pitchstep;
- dptr += pitchstep;
- }
-}
-
-void rtg_blitrect_nomask_complete(uint16_t sx, uint16_t sy, uint16_t dx, uint16_t dy, uint16_t w, uint16_t h, uint16_t srcpitch, uint16_t dstpitch, uint32_t src_addr, uint32_t dst_addr, uint16_t format, uint8_t minterm) {
- if (minterm) {}
- //printf("BlitRectNoMaskComplete\n");
- uint8_t *sptr = &rtg_mem[src_addr - (PIGFX_RTG_BASE + PIGFX_REG_SIZE) + (sx << format) + (sy * srcpitch)];
- uint8_t *dptr = &rtg_mem[dst_addr - (PIGFX_RTG_BASE + PIGFX_REG_SIZE) + (dx << format) + (dy * dstpitch)];
-
- uint32_t xdir = 1, src_pitchstep = srcpitch, dst_pitchstep = dstpitch;
-
- if (src_addr == dst_addr) {
- if (sy < dy) {
- src_pitchstep = -srcpitch;
- sptr += ((h - 1) * srcpitch);
- dst_pitchstep = -dstpitch;
- dptr += ((h - 1) * dstpitch);
- }
- if (sx < dx) {
- xdir = 0;
- }
- }
-
- for (int ys = 0; ys < h; ys++) {
- if (xdir)
- memcpy(dptr, sptr, w << format);
- else
- memmove(dptr, sptr, w << format);
- sptr += src_pitchstep;
- dptr += dst_pitchstep;
- }
-}
-
-extern struct emulator_config *cfg;
-
-void rtg_blittemplate(uint16_t x, uint16_t y, uint16_t w, uint16_t h, uint32_t src_addr, uint32_t fgcol, uint32_t bgcol, uint16_t pitch, uint16_t t_pitch, uint16_t format, uint16_t offset_x, uint8_t mask, uint8_t draw_mode) {
- if (mask) {}
- //printf("BlitTemplate: %d,%d (%dx%d) @%.8X p:%d dp: %d DM: %d Format: %d\n", x, y, w, h, src_addr, pitch, t_pitch, draw_mode & 0x03, format);
- //printf("FBA: %.8x\n", framebuffer_addr);
-
- uint8_t *dptr = &rtg_mem[rtg_address_adj[1] + (x << format) + (y * pitch)];
- uint8_t *sptr = NULL;
- uint8_t cur_bit = 0, base_bit = 0, cur_byte = 0;
- uint8_t invert = (draw_mode & DRAWMODE_INVERSVID);
- uint16_t tmpl_x = 0;
-
- draw_mode &= 0x03;
-
- tmpl_x = offset_x / 8;
- cur_bit = base_bit = (0x80 >> (offset_x % 8));
-
- uint32_t fg_color[3] = {
- (fgcol & 0xFF),
- htobe16((fgcol & 0xFFFF)),
- htobe32(fgcol),
- };
- uint32_t bg_color[3] = {
- (bgcol & 0xFF),
- htobe16((bgcol & 0xFFFF)),
- htobe32(bgcol),
- };
-
- if (src_addr >= PIGFX_RTG_BASE)
- sptr = &rtg_mem[src_addr - PIGFX_RTG_BASE];
- else {
- int i = get_mapped_item_by_address(cfg, src_addr);
- if (i != -1) {
- //printf("Grabbing data from mapped range %d at offset %ld.\n", i, src_addr - cfg->map_offset[i]);
- sptr = &cfg->map_data[i][src_addr - cfg->map_offset[i]];
- }
- else {
- printf("BlitTemplate: Failed to find mapped range for address %.8X\n", src_addr);
- return;
- }
- }
-
- switch (draw_mode) {
- case DRAWMODE_JAM1:
- for (uint16_t ys = 0; ys < h; ys++) {
- //printf("JAM1: Get byte from sptr[%d] (%p) <- (%p)...\n", tmpl_x, sptr, cfg->map_data[1]);
- cur_byte = (invert) ? sptr[tmpl_x] ^ 0xFF : sptr[tmpl_x];
-
- for (int xs = 0; xs < w; xs++) {
- if (w >= 8 && cur_bit == 0x80 && xs < w - 8) {
- SET_RTG_PIXELS(dptr, xs, format, fg_color);
- xs += 7;
- }
- else {
- while (cur_bit > 0 && xs < w) {
- if (cur_byte & cur_bit) {
- //printf("JAM1: Write byte to dptr[%d] (%p) <- (%p)...\n", xs, dptr, rtg_mem);
- SET_RTG_PIXEL(dptr, xs, format, fg_color);
- }
- xs++;
- cur_bit >>= 1;
- }
- xs--;
- cur_bit = 0x80;
- }
- TEMPLATE_LOOPX;
- }
- TEMPLATE_LOOPY;
- }
- return;
- case DRAWMODE_JAM2:
- for (uint16_t ys = 0; ys < h; ys++) {
- //printf("JAM2: Get byte from sptr[%d] (%p) <- (%p)...\n", tmpl_x, sptr, cfg->map_data[1]);
- cur_byte = (invert) ? sptr[tmpl_x] ^ 0xFF : sptr[tmpl_x];
-
- for (int xs = 0; xs < w; xs++) {
- if (w >= 8 && cur_bit == 0x80 && xs < w - 8) {
- SET_RTG_PIXELS_COND(dptr, xs, format, fg_color, bg_color);
- xs += 7;
- }
- else {
- while (cur_bit > 0 && xs < w) {
- if (cur_byte & cur_bit) {
- SET_RTG_PIXEL(dptr, xs, format, fg_color)
- }
- else {
- SET_RTG_PIXEL(dptr, xs, format, bg_color)
- }
- xs++;
- cur_bit >>= 1;
- }
- xs--;
- cur_bit = 0x80;
- }
- TEMPLATE_LOOPX;
- }
- TEMPLATE_LOOPY;
- }
- return;
- case DRAWMODE_COMPLEMENT:
- for (uint16_t ys = 0; ys < h; ys++) {
- cur_byte = (invert) ? sptr[tmpl_x] ^ 0xFF : sptr[tmpl_x];
-
- for (int xs = 0; xs < w; xs++) {
- if (w >= 8 && cur_bit == 0x80 && xs < w - 8) {
- SET_RTG_PIXELS_COND(dptr, xs, format, fg_color, bg_color);
- xs += 7;
- }
- else {
- while (cur_bit > 0 && xs < w) {
- if (cur_byte & cur_bit) {
- INVERT_RTG_PIXELS(dptr, xs, format)
- }
- else {
- INVERT_RTG_PIXEL(dptr, xs, format)
- }
- xs++;
- cur_bit >>= 1;
- }
- xs--;
- cur_bit = 0x80;
- }
- TEMPLATE_LOOPX;
- }
- TEMPLATE_LOOPY;
- }
- return;
- }
-}
-
-void rtg_blitpattern(uint16_t x, uint16_t y, uint16_t w, uint16_t h, uint32_t src_addr, uint32_t fgcol, uint32_t bgcol, uint16_t pitch, uint16_t format, uint16_t offset_x, uint16_t offset_y, uint8_t mask, uint8_t draw_mode, uint8_t loop_rows) {
- if (mask) {}
- //printf("BlitPattern: %d,%d (%dx%d) @%.8X p:%d dp: %d DM: %d Format: %d\n", x, y, w, h, src_addr, pitch, 2, draw_mode & 0x03, format);
- //printf("FBA: %.8x - lr: %d\n", framebuffer_addr, loop_rows);
-
- uint8_t *dptr = &rtg_mem[rtg_address_adj[1] + (x << format) + (y * pitch)];
- uint8_t *sptr = NULL, *sptr_base = NULL;
- uint8_t cur_bit = 0, base_bit = 0, cur_byte = 0;
- uint8_t invert = (draw_mode & DRAWMODE_INVERSVID);
- uint16_t tmpl_x = 0;
-
- draw_mode &= 0x03;
-
- tmpl_x = (offset_x / 8) % 2;
- cur_bit = base_bit = (0x80 >> (offset_x % 8));
-
- uint32_t fg_color[3] = {
- (fgcol & 0xFF),
- htobe16((fgcol & 0xFFFF)),
- htobe32(fgcol),
- };
- uint32_t bg_color[3] = {
- (bgcol & 0xFF),
- htobe16((bgcol & 0xFFFF)),
- htobe32(bgcol),
- };
-
-
- if (src_addr >= PIGFX_RTG_BASE)
- sptr = &rtg_mem[src_addr - PIGFX_RTG_BASE];
- else {
- int i = get_mapped_item_by_address(cfg, src_addr);
- if (i != -1) {
- //printf("BlitPattern: Grabbing data from mapped range %d at offset %ld.\n", i, src_addr - cfg->map_offset[i]);
- sptr = &cfg->map_data[i][src_addr - cfg->map_offset[i]];
- }
- else {
- printf("BlitPattern: Failed to find mapped range for address %.8X\n", src_addr);
- return;
- }
- }
-
- sptr_base = sptr;
- sptr += (offset_y % loop_rows) * 2;
-
- switch (draw_mode) {
- case DRAWMODE_JAM1:
- for (uint16_t ys = 0; ys < h; ys++) {
- //printf("JAM1: Get byte from sptr[%d] (%p) <- (%p)...\n", tmpl_x, sptr, cfg->map_data[1]);
- cur_byte = (invert) ? sptr[tmpl_x] ^ 0xFF : sptr[tmpl_x];
-
- for (int xs = 0; xs < w; xs++) {
- if (w >= 8 && cur_bit == 0x80 && xs < w - 8) {
- SET_RTG_PIXELS(dptr, xs, format, fg_color);
- xs += 7;
- }
- else {
- while (cur_bit > 0 && xs < w) {
- if (cur_byte & cur_bit) {
- //printf("JAM1: Write byte to dptr[%d] (%p) <- (%p)...\n", xs, dptr, rtg_mem);
- SET_RTG_PIXEL(dptr, xs, format, fg_color);
- }
- xs++;
- cur_bit >>= 1;
- }
- xs--;
- cur_bit = 0x80;
- }
- PATTERN_LOOPX;
- }
- PATTERN_LOOPY;
- }
- return;
- case DRAWMODE_JAM2:
- for (uint16_t ys = 0; ys < h; ys++) {
- //printf("JAM2: Get byte from sptr[%d] (%p) <- (%p)...\n", tmpl_x, sptr, cfg->map_data[1]);
- cur_byte = (invert) ? sptr[tmpl_x] ^ 0xFF : sptr[tmpl_x];
-
- for (int xs = 0; xs < w; xs++) {
- //printf("JAM2: Write byte to dptr[%d] (%p) <- (%p)...\n", xs, dptr, rtg_mem);
- if (w >= 8 && cur_bit == 0x80 && xs < w - 8) {
- SET_RTG_PIXELS_COND(dptr, xs, format, fg_color, bg_color);
- xs += 7;
- }
- else {
- while (cur_bit > 0 && xs < w) {
- if (cur_byte & cur_bit) {
- SET_RTG_PIXEL(dptr, xs, format, fg_color)
- }
- else {
- SET_RTG_PIXEL(dptr, xs, format, bg_color)
- }
- xs++;
- cur_bit >>= 1;
- }
- xs--;
- cur_bit = 0x80;
- }
- PATTERN_LOOPX;
- }
- PATTERN_LOOPY;
- }
- return;
- case DRAWMODE_COMPLEMENT:
- for (uint16_t ys = 0; ys < h; ys++) {
- cur_byte = (invert) ? sptr[tmpl_x] ^ 0xFF : sptr[tmpl_x];
-
- for (int xs = 0; xs < w; xs++) {
- if (w >= 8 && cur_bit == 0x80 && xs < w - 8) {
- SET_RTG_PIXELS_COND(dptr, xs, format, fg_color, bg_color);
- xs += 7;
- }
- else {
- while (cur_bit > 0 && xs < w) {
- if (cur_byte & cur_bit) {
- INVERT_RTG_PIXELS(dptr, xs, format)
- }
- else {
- INVERT_RTG_PIXEL(dptr, xs, format)
- }
- xs++;
- cur_bit >>= 1;
- }
- xs--;
- cur_bit = 0x80;
- }
- PATTERN_LOOPX;
- }
- PATTERN_LOOPY;
- }
- return;
}
}
-#define PIGFX_RTG_BASE 0x70000000
-#define PIGFX_RTG_SIZE 0x02000000
-
-#define PIGFX_REG_SIZE 0x00010000
+#define PIGFX_RTG_BASE 0x70000000
+#define PIGFX_REG_SIZE 0x00010000
+#define PIGFX_RTG_SIZE 0x02000000
+#define PIGFX_SCRATCH_SIZE 0x00800000
+#define PIGFX_SCRATCH_AREA 0x72010000
+#define PIGFX_UPPER 0x72810000
#define CARD_OFFSET 0
void rtg_shutdown_display();
void rtg_fillrect(uint16_t x, uint16_t y, uint16_t w, uint16_t h, uint32_t color, uint16_t pitch, uint16_t format, uint8_t mask);
+void rtg_invertrect(uint16_t x, uint16_t y, uint16_t w, uint16_t h, uint16_t pitch, uint16_t format, uint8_t mask);
void rtg_blitrect(uint16_t x, uint16_t y, uint16_t dx, uint16_t dy, uint16_t w, uint16_t h, uint16_t pitch, uint16_t format, uint8_t mask);
void rtg_blitrect_nomask_complete(uint16_t sx, uint16_t sy, uint16_t dx, uint16_t dy, uint16_t w, uint16_t h, uint16_t srcpitch, uint16_t dstpitch, uint32_t src_addr, uint32_t dst_addr, uint16_t format, uint8_t minterm);
void rtg_blittemplate(uint16_t x, uint16_t y, uint16_t w, uint16_t h, uint32_t src_addr, uint32_t fgcol, uint32_t bgcol, uint16_t pitch, uint16_t t_pitch, uint16_t format, uint16_t offset_x, uint8_t mask, uint8_t draw_mode);
void rtg_blitpattern(uint16_t x, uint16_t y, uint16_t w, uint16_t h, uint32_t src_addr, uint32_t fgcol, uint32_t bgcol, uint16_t pitch, uint16_t format, uint16_t offset_x, uint16_t offset_y, uint8_t mask, uint8_t draw_mode, uint8_t loop_rows);
+void rtg_drawline_solid(int16_t x1_, int16_t y1_, int16_t x2_, int16_t y2_, uint16_t len, uint32_t fgcol, uint16_t pitch, uint16_t format);
+void rtg_drawline (int16_t x1_, int16_t y1_, int16_t x2_, int16_t y2_, uint16_t len, uint16_t pattern, uint16_t pattern_offset, uint32_t fgcol, uint32_t bgcol, uint16_t pitch, uint16_t format, uint8_t mask, uint8_t draw_mode);
+
+void rtg_p2c (int16_t sx, int16_t sy, int16_t dx, int16_t dy, int16_t w, int16_t h, uint8_t draw_mode, uint8_t planes, uint8_t mask, uint8_t layer_mask, uint16_t src_line_pitch, uint8_t *bmp_data_src);
#define PATTERN_LOOPX \
tmpl_x ^= 0x01; \
tmpl_x = offset_x / 8; \
cur_bit = base_bit;
-#define SET_RTG_PIXELS(a, b, c, d) \
- switch (c) { \
+#define INVERT_RTG_PIXELS(dest, format) \
+ switch (format) { \
+ case RTGFMT_8BIT: \
+ if (cur_byte & 0x80) (dest)[0] = ~(dest)[0]; \
+ if (cur_byte & 0x40) (dest)[1] = ~(dest)[1]; \
+ if (cur_byte & 0x20) (dest)[2] = ~(dest)[2]; \
+ if (cur_byte & 0x10) (dest)[3] = ~(dest)[3]; \
+ if (cur_byte & 0x08) (dest)[4] = ~(dest)[4]; \
+ if (cur_byte & 0x04) (dest)[5] = ~(dest)[5]; \
+ if (cur_byte & 0x02) (dest)[6] = ~(dest)[6]; \
+ if (cur_byte & 0x01) (dest)[7] = ~(dest)[7]; \
+ break; \
+ case RTGFMT_RBG565: \
+ if (cur_byte & 0x80) ((uint16_t *)dest)[0] = ~((uint16_t *)dest)[0]; \
+ if (cur_byte & 0x40) ((uint16_t *)dest)[1] = ~((uint16_t *)dest)[1]; \
+ if (cur_byte & 0x20) ((uint16_t *)dest)[2] = ~((uint16_t *)dest)[2]; \
+ if (cur_byte & 0x10) ((uint16_t *)dest)[3] = ~((uint16_t *)dest)[3]; \
+ if (cur_byte & 0x08) ((uint16_t *)dest)[4] = ~((uint16_t *)dest)[4]; \
+ if (cur_byte & 0x04) ((uint16_t *)dest)[5] = ~((uint16_t *)dest)[5]; \
+ if (cur_byte & 0x02) ((uint16_t *)dest)[6] = ~((uint16_t *)dest)[6]; \
+ if (cur_byte & 0x01) ((uint16_t *)dest)[7] = ~((uint16_t *)dest)[7]; \
+ break; \
+ case RTGFMT_RGB32: \
+ if (cur_byte & 0x80) ((uint32_t *)dest)[0] = ~((uint32_t *)dest)[0]; \
+ if (cur_byte & 0x40) ((uint32_t *)dest)[1] = ~((uint32_t *)dest)[1]; \
+ if (cur_byte & 0x20) ((uint32_t *)dest)[2] = ~((uint32_t *)dest)[2]; \
+ if (cur_byte & 0x10) ((uint32_t *)dest)[3] = ~((uint32_t *)dest)[3]; \
+ if (cur_byte & 0x08) ((uint32_t *)dest)[4] = ~((uint32_t *)dest)[4]; \
+ if (cur_byte & 0x04) ((uint32_t *)dest)[5] = ~((uint32_t *)dest)[5]; \
+ if (cur_byte & 0x02) ((uint32_t *)dest)[6] = ~((uint32_t *)dest)[6]; \
+ if (cur_byte & 0x01) ((uint32_t *)dest)[7] = ~((uint32_t *)dest)[7]; \
+ break; \
+ }
+
+#define SET_RTG_PIXELS(dest, src, format) \
+ switch (format) { \
case RTGFMT_8BIT: \
- if (cur_byte & 0x80) a[b + 0] = d[c]; \
- if (cur_byte & 0x40) a[b + 1] = d[c]; \
- if (cur_byte & 0x20) a[b + 2] = d[c]; \
- if (cur_byte & 0x10) a[b + 3] = d[c]; \
- if (cur_byte & 0x08) a[b + 4] = d[c]; \
- if (cur_byte & 0x04) a[b + 5] = d[c]; \
- if (cur_byte & 0x02) a[b + 6] = d[c]; \
- if (cur_byte & 0x01) a[b + 7] = d[c]; \
+ if (cur_byte & 0x80) (dest)[0] = src; \
+ if (cur_byte & 0x40) (dest)[1] = src; \
+ if (cur_byte & 0x20) (dest)[2] = src; \
+ if (cur_byte & 0x10) (dest)[3] = src; \
+ if (cur_byte & 0x08) (dest)[4] = src; \
+ if (cur_byte & 0x04) (dest)[5] = src; \
+ if (cur_byte & 0x02) (dest)[6] = src; \
+ if (cur_byte & 0x01) (dest)[7] = src; \
break; \
case RTGFMT_RBG565: \
- if (cur_byte & 0x80) ((uint16_t *)a)[b + 0] = d[c]; \
- if (cur_byte & 0x40) ((uint16_t *)a)[b + 1] = d[c]; \
- if (cur_byte & 0x20) ((uint16_t *)a)[b + 2] = d[c]; \
- if (cur_byte & 0x10) ((uint16_t *)a)[b + 3] = d[c]; \
- if (cur_byte & 0x08) ((uint16_t *)a)[b + 4] = d[c]; \
- if (cur_byte & 0x04) ((uint16_t *)a)[b + 5] = d[c]; \
- if (cur_byte & 0x02) ((uint16_t *)a)[b + 6] = d[c]; \
- if (cur_byte & 0x01) ((uint16_t *)a)[b + 7] = d[c]; \
+ if (cur_byte & 0x80) ((uint16_t *)dest)[0] = src; \
+ if (cur_byte & 0x40) ((uint16_t *)dest)[1] = src; \
+ if (cur_byte & 0x20) ((uint16_t *)dest)[2] = src; \
+ if (cur_byte & 0x10) ((uint16_t *)dest)[3] = src; \
+ if (cur_byte & 0x08) ((uint16_t *)dest)[4] = src; \
+ if (cur_byte & 0x04) ((uint16_t *)dest)[5] = src; \
+ if (cur_byte & 0x02) ((uint16_t *)dest)[6] = src; \
+ if (cur_byte & 0x01) ((uint16_t *)dest)[7] = src; \
break; \
case RTGFMT_RGB32: \
- if (cur_byte & 0x80) ((uint32_t *)a)[b + 0] = d[c]; \
- if (cur_byte & 0x40) ((uint32_t *)a)[b + 1] = d[c]; \
- if (cur_byte & 0x20) ((uint32_t *)a)[b + 2] = d[c]; \
- if (cur_byte & 0x10) ((uint32_t *)a)[b + 3] = d[c]; \
- if (cur_byte & 0x08) ((uint32_t *)a)[b + 4] = d[c]; \
- if (cur_byte & 0x04) ((uint32_t *)a)[b + 5] = d[c]; \
- if (cur_byte & 0x02) ((uint32_t *)a)[b + 6] = d[c]; \
- if (cur_byte & 0x01) ((uint32_t *)a)[b + 7] = d[c]; \
+ if (cur_byte & 0x80) ((uint32_t *)dest)[0] = src; \
+ if (cur_byte & 0x40) ((uint32_t *)dest)[1] = src; \
+ if (cur_byte & 0x20) ((uint32_t *)dest)[2] = src; \
+ if (cur_byte & 0x10) ((uint32_t *)dest)[3] = src; \
+ if (cur_byte & 0x08) ((uint32_t *)dest)[4] = src; \
+ if (cur_byte & 0x04) ((uint32_t *)dest)[5] = src; \
+ if (cur_byte & 0x02) ((uint32_t *)dest)[6] = src; \
+ if (cur_byte & 0x01) ((uint32_t *)dest)[7] = src; \
break; \
}
-#define SET_RTG_PIXELS_COND(a, b, c, d, e) \
- switch (c) { \
+#define SET_RTG_PIXELS2_COND(dest, src, src2, format) \
+ switch (format) { \
case RTGFMT_8BIT: \
- a[b + 0] = (cur_byte & 0x80) ? d[c] : e[c]; \
- a[b + 1] = (cur_byte & 0x40) ? d[c] : e[c]; \
- a[b + 2] = (cur_byte & 0x20) ? d[c] : e[c]; \
- a[b + 3] = (cur_byte & 0x10) ? d[c] : e[c]; \
- a[b + 4] = (cur_byte & 0x08) ? d[c] : e[c]; \
- a[b + 5] = (cur_byte & 0x04) ? d[c] : e[c]; \
- a[b + 6] = (cur_byte & 0x02) ? d[c] : e[c]; \
- a[b + 7] = (cur_byte & 0x01) ? d[c] : e[c]; \
+ (dest)[0] = (cur_byte & 0x80) ? src : src2; \
+ (dest)[1] = (cur_byte & 0x40) ? src : src2; \
+ (dest)[2] = (cur_byte & 0x20) ? src : src2; \
+ (dest)[3] = (cur_byte & 0x10) ? src : src2; \
+ (dest)[4] = (cur_byte & 0x08) ? src : src2; \
+ (dest)[5] = (cur_byte & 0x04) ? src : src2; \
+ (dest)[6] = (cur_byte & 0x02) ? src : src2; \
+ (dest)[7] = (cur_byte & 0x01) ? src : src2; \
break; \
case RTGFMT_RBG565: \
- ((uint16_t *)a)[b + 0] = (cur_byte & 0x80) ? d[c] : e[c]; \
- ((uint16_t *)a)[b + 1] = (cur_byte & 0x40) ? d[c] : e[c]; \
- ((uint16_t *)a)[b + 2] = (cur_byte & 0x20) ? d[c] : e[c]; \
- ((uint16_t *)a)[b + 3] = (cur_byte & 0x10) ? d[c] : e[c]; \
- ((uint16_t *)a)[b + 4] = (cur_byte & 0x08) ? d[c] : e[c]; \
- ((uint16_t *)a)[b + 5] = (cur_byte & 0x04) ? d[c] : e[c]; \
- ((uint16_t *)a)[b + 6] = (cur_byte & 0x02) ? d[c] : e[c]; \
- ((uint16_t *)a)[b + 7] = (cur_byte & 0x01) ? d[c] : e[c]; \
+ ((uint16_t *)dest)[0] = (cur_byte & 0x80) ? src : src2; \
+ ((uint16_t *)dest)[1] = (cur_byte & 0x40) ? src : src2; \
+ ((uint16_t *)dest)[2] = (cur_byte & 0x20) ? src : src2; \
+ ((uint16_t *)dest)[3] = (cur_byte & 0x10) ? src : src2; \
+ ((uint16_t *)dest)[4] = (cur_byte & 0x08) ? src : src2; \
+ ((uint16_t *)dest)[5] = (cur_byte & 0x04) ? src : src2; \
+ ((uint16_t *)dest)[6] = (cur_byte & 0x02) ? src : src2; \
+ ((uint16_t *)dest)[7] = (cur_byte & 0x01) ? src : src2; \
break; \
case RTGFMT_RGB32: \
- ((uint32_t *)a)[b + 0] = (cur_byte & 0x80) ? d[c] : e[c]; \
- ((uint32_t *)a)[b + 1] = (cur_byte & 0x40) ? d[c] : e[c]; \
- ((uint32_t *)a)[b + 2] = (cur_byte & 0x20) ? d[c] : e[c]; \
- ((uint32_t *)a)[b + 3] = (cur_byte & 0x10) ? d[c] : e[c]; \
- ((uint32_t *)a)[b + 4] = (cur_byte & 0x08) ? d[c] : e[c]; \
- ((uint32_t *)a)[b + 5] = (cur_byte & 0x04) ? d[c] : e[c]; \
- ((uint32_t *)a)[b + 6] = (cur_byte & 0x02) ? d[c] : e[c]; \
- ((uint32_t *)a)[b + 7] = (cur_byte & 0x01) ? d[c] : e[c]; \
+ ((uint32_t *)dest)[0] = (cur_byte & 0x80) ? src : src2; \
+ ((uint32_t *)dest)[1] = (cur_byte & 0x40) ? src : src2; \
+ ((uint32_t *)dest)[2] = (cur_byte & 0x20) ? src : src2; \
+ ((uint32_t *)dest)[3] = (cur_byte & 0x10) ? src : src2; \
+ ((uint32_t *)dest)[4] = (cur_byte & 0x08) ? src : src2; \
+ ((uint32_t *)dest)[5] = (cur_byte & 0x04) ? src : src2; \
+ ((uint32_t *)dest)[6] = (cur_byte & 0x02) ? src : src2; \
+ ((uint32_t *)dest)[7] = (cur_byte & 0x01) ? src : src2; \
break; \
}
-#define INVERT_RTG_PIXELS(a, b, c) \
- switch (c) { \
+
+
+#define SET_RTG_PIXEL(dest, src, format) \
+ switch (format) { \
case RTGFMT_8BIT: \
- if (cur_byte & 0x80) a[b + 0] = ~a[b + 0]; \
- if (cur_byte & 0x40) a[b + 1] = ~a[b + 1]; \
- if (cur_byte & 0x20) a[b + 2] = ~a[b + 2]; \
- if (cur_byte & 0x10) a[b + 3] = ~a[b + 3]; \
- if (cur_byte & 0x08) a[b + 4] = ~a[b + 4]; \
- if (cur_byte & 0x04) a[b + 5] = ~a[b + 5]; \
- if (cur_byte & 0x02) a[b + 6] = ~a[b + 6]; \
- if (cur_byte & 0x01) a[b + 7] = ~a[b + 7]; \
+ *(dest) = src; \
break; \
case RTGFMT_RBG565: \
- if (cur_byte & 0x80) ((uint16_t *)a)[b + 0] = ~((uint16_t *)a)[b + 0]; \
- if (cur_byte & 0x40) ((uint16_t *)a)[b + 1] = ~((uint16_t *)a)[b + 1]; \
- if (cur_byte & 0x20) ((uint16_t *)a)[b + 2] = ~((uint16_t *)a)[b + 2]; \
- if (cur_byte & 0x10) ((uint16_t *)a)[b + 3] = ~((uint16_t *)a)[b + 3]; \
- if (cur_byte & 0x08) ((uint16_t *)a)[b + 4] = ~((uint16_t *)a)[b + 4]; \
- if (cur_byte & 0x04) ((uint16_t *)a)[b + 5] = ~((uint16_t *)a)[b + 5]; \
- if (cur_byte & 0x02) ((uint16_t *)a)[b + 6] = ~((uint16_t *)a)[b + 6]; \
- if (cur_byte & 0x01) ((uint16_t *)a)[b + 7] = ~((uint16_t *)a)[b + 7]; \
+ *((uint16_t *)dest) = src; \
break; \
case RTGFMT_RGB32: \
- if (cur_byte & 0x80) ((uint32_t *)a)[b + 0] = ~((uint32_t *)a)[b + 0]; \
- if (cur_byte & 0x40) ((uint32_t *)a)[b + 1] = ~((uint32_t *)a)[b + 1]; \
- if (cur_byte & 0x20) ((uint32_t *)a)[b + 2] = ~((uint32_t *)a)[b + 2]; \
- if (cur_byte & 0x10) ((uint32_t *)a)[b + 3] = ~((uint32_t *)a)[b + 3]; \
- if (cur_byte & 0x08) ((uint32_t *)a)[b + 4] = ~((uint32_t *)a)[b + 4]; \
- if (cur_byte & 0x04) ((uint32_t *)a)[b + 5] = ~((uint32_t *)a)[b + 5]; \
- if (cur_byte & 0x02) ((uint32_t *)a)[b + 6] = ~((uint32_t *)a)[b + 6]; \
- if (cur_byte & 0x01) ((uint32_t *)a)[b + 7] = ~((uint32_t *)a)[b + 7]; \
+ *((uint32_t *)dest) = src; \
break; \
}
-#define SET_RTG_PIXEL(a, b, c, d) \
- switch (c) { \
+#define SET_RTG_PIXEL_MASK(dest, src, format) \
+ switch (format) { \
case RTGFMT_8BIT: \
- a[b] = d[c]; \
+ *(dest) = src ^ (*(dest) & ~mask); \
break; \
case RTGFMT_RBG565: \
- ((uint16_t *)a)[b] = d[c]; \
+ *((uint16_t *)dest) = src ^ (*((uint16_t *)dest) & ~color_mask); \
break; \
case RTGFMT_RGB32: \
- ((uint32_t *)a)[b] = d[c]; \
+ *((uint32_t *)dest) = src ^ (*((uint32_t *)dest) & ~color_mask); \
break; \
}
-#define INVERT_RTG_PIXEL(a, b, c) \
- switch (c) { \
+#define INVERT_RTG_PIXEL(dest, format) \
+ switch (format) { \
case RTGFMT_8BIT: \
- a[b] = ~a[c]; \
+ *(dest) ^= mask; \
break; \
case RTGFMT_RBG565: \
- ((uint16_t *)a)[b] = ~((uint16_t *)a)[b]; \
+ *((uint16_t *)dest) = ~*((uint16_t *)dest); \
break; \
case RTGFMT_RGB32: \
- ((uint32_t *)a)[b] = ~((uint32_t *)a)[b]; \
+ *((uint32_t *)dest) = ~*((uint32_t *)dest); \
break; \
}
#include <exec/initializers.h>
#include <clib/debug_protos.h>
#include <string.h>
-#include <stdio.h>
+#include <stdint.h>
#include "boardinfo.h"
#include "rtg_enums.h"
#define WRITELONG(cmd, val) *(unsigned long *)((unsigned long)(b->RegisterBase)+cmd) = val;
#define WRITEBYTE(cmd, val) *(unsigned char *)((unsigned long)(b->RegisterBase)+cmd) = val;
-#define CARD_OFFSET 0x70000000
-#define CARD_REGSIZE 0x00010000
-// 32MB "VRAM"
-#define CARD_MEMSIZE 0x02000000
-#define CHIP_RAM_SIZE 0x200000
+#define CARD_OFFSET 0x70000000
+#define CARD_REGSIZE 0x00010000
+#define CARD_MEMSIZE 0x02000000 // 32MB "VRAM"
+#define CARD_SCRATCH 0x72010000
+
+#define CHIP_RAM_SIZE 0x00200000 // Chip RAM offset, 2MB
const unsigned short rgbf_to_rtg[16] = {
RTGFMT_8BIT, // 0x00
void WaitVerticalSync (__REGA0(struct BoardInfo *b), __REGD0(BOOL toggle));
void FillRect (__REGA0(struct BoardInfo *b), __REGA1(struct RenderInfo *r), __REGD0(WORD x), __REGD1(WORD y), __REGD2(WORD w), __REGD3(WORD h), __REGD4(ULONG color), __REGD5(UBYTE mask), __REGD7(RGBFTYPE format));
+void InvertRect (__REGA0(struct BoardInfo *b), __REGA1(struct RenderInfo *r), __REGD0(WORD x), __REGD1(WORD y), __REGD2(WORD w), __REGD3(WORD h), __REGD4(UBYTE mask), __REGD7(RGBFTYPE format));
void BlitRect (__REGA0(struct BoardInfo *b), __REGA1(struct RenderInfo *r), __REGD0(WORD x), __REGD1(WORD y), __REGD2(WORD dx), __REGD3(WORD dy), __REGD4(WORD w), __REGD5(WORD h), __REGD6(UBYTE mask), __REGD7(RGBFTYPE format));
void BlitRectNoMaskComplete (__REGA0(struct BoardInfo *b), __REGA1(struct RenderInfo *rs), __REGA2(struct RenderInfo *rt), __REGD0(WORD x), __REGD1(WORD y), __REGD2(WORD dx), __REGD3(WORD dy), __REGD4(WORD w), __REGD5(WORD h), __REGD6(UBYTE minterm), __REGD7(RGBFTYPE format));
void BlitTemplate (__REGA0(struct BoardInfo *b), __REGA1(struct RenderInfo *r), __REGA2(struct Template *t), __REGD0(WORD x), __REGD1(WORD y), __REGD2(WORD w), __REGD3(WORD h), __REGD4(UBYTE mask), __REGD7(RGBFTYPE format));
void BlitPattern (__REGA0(struct BoardInfo *b), __REGA1(struct RenderInfo *r), __REGA2(struct Pattern *p), __REGD0(WORD x), __REGD1(WORD y), __REGD2(WORD w), __REGD3(WORD h), __REGD4(UBYTE mask), __REGD7(RGBFTYPE format));
+void DrawLine (__REGA0(struct BoardInfo *b), __REGA1(struct RenderInfo *r), __REGA2(struct Line *l), __REGD0(UBYTE mask), __REGD7(RGBFTYPE format));
+
+void BlitPlanar2Chunky (__REGA0(struct BoardInfo *b), __REGA1(struct BitMap *bm), __REGA2(struct RenderInfo *r), __REGD0(SHORT x), __REGD1(SHORT y), __REGD2(SHORT dx), __REGD3(SHORT dy), __REGD4(SHORT w), __REGD5(SHORT h), __REGD6(UBYTE minterm), __REGD7(UBYTE mask));
+void BlitPlanar2Direct (__REGA0(struct BoardInfo *b), __REGA1(struct BitMap *bmp), __REGA2(struct RenderInfo *r), __REGA3(struct ColorIndexMapping *clut), __REGD0(SHORT x), __REGD1(SHORT y), __REGD2(SHORT dx), __REGD3(SHORT dy), __REGD4(SHORT w), __REGD5(SHORT h), __REGD6(UBYTE minterm), __REGD7(UBYTE mask));
static ULONG LibStart(void) {
return(-1);
//b->ScrollPlanar = (void *)NULL;
//b->UpdatePlanar = (void *)NULL;
- //b->BlitPlanar2Chunky = (void *)NULL;
+ b->BlitPlanar2Chunky = (void *)BlitPlanar2Chunky;
//b->BlitPlanar2Direct = (void *)NULL;
b->FillRect = (void *)FillRect;
- //b->InvertRect = (void *)NULL;
+ b->InvertRect = (void *)InvertRect;
b->BlitRect = (void *)BlitRect;
b->BlitTemplate = (void *)BlitTemplate;
b->BlitPattern = (void *)BlitPattern;
- //b->DrawLine = (void *)NULL;
+ b->DrawLine = (void *)DrawLine;
b->BlitRectNoMaskComplete = (void *)BlitRectNoMaskComplete;
//b->EnableSoftSprite = (void *)NULL;
WRITESHORT(RTG_Y2, h);
WRITELONG(RTG_RGB1, color);
WRITESHORT(RTG_X3, r->BytesPerRow);
+ WRITEBYTE(RTG_U81, mask);
WRITESHORT(RTG_COMMAND, RTGCMD_FILLRECT);
}
+void InvertRect (__REGA0(struct BoardInfo *b), __REGA1(struct RenderInfo *r), __REGD0(WORD x), __REGD1(WORD y), __REGD2(WORD w), __REGD3(WORD h), __REGD4(UBYTE mask), __REGD7(RGBFTYPE format)) {
+ if (!r)
+ return;
+ if (mask != 0xFF) {
+ b->InvertRectDefault(b, r, x, y, w, h, mask, format);
+ return;
+ }
+
+ WRITELONG(RTG_ADDR1, (unsigned long)r->Memory);
+
+ WRITESHORT(RTG_FORMAT, rgbf_to_rtg[format]);
+ WRITESHORT(RTG_X1, x);
+ WRITESHORT(RTG_X2, w);
+ WRITESHORT(RTG_Y1, y);
+ WRITESHORT(RTG_Y2, h);
+ WRITESHORT(RTG_X3, r->BytesPerRow);
+ WRITEBYTE(RTG_U81, mask);
+ WRITESHORT(RTG_COMMAND, RTGCMD_INVERTRECT);
+}
+
void BlitRect (__REGA0(struct BoardInfo *b), __REGA1(struct RenderInfo *r), __REGD0(WORD x), __REGD1(WORD y), __REGD2(WORD dx), __REGD3(WORD dy), __REGD4(WORD w), __REGD5(WORD h), __REGD6(UBYTE mask), __REGD7(RGBFTYPE format)) {
if (!r)
return;
WRITESHORT(RTG_Y2, dy);
WRITESHORT(RTG_Y3, h);
WRITESHORT(RTG_X4, r->BytesPerRow);
+ WRITEBYTE(RTG_U81, mask);
WRITESHORT(RTG_COMMAND, RTGCMD_BLITRECT);
}
WRITELONG(RTG_ADDR1, (unsigned long)t->Memory);
}
else {
- UBYTE *dest = (UBYTE *)((unsigned long)(CARD_OFFSET + CARD_REGSIZE + CARD_MEMSIZE) - 0x1000 - (t->BytesPerRow * h));
- memcpy(dest, t->Memory, (t->BytesPerRow * h));
+ unsigned long dest = CARD_SCRATCH;
+ memcpy((unsigned char *)dest, t->Memory, (t->BytesPerRow * h));
WRITELONG(RTG_ADDR1, (unsigned long)dest);
+ WRITELONG(RTG_ADDR3, (unsigned long)t->Memory);
}
WRITELONG(RTG_RGB1, t->FgPen);
WRITELONG(RTG_ADDR1, (unsigned long)p->Memory);
}
else {
- UBYTE *dest = (UBYTE *)((unsigned long)(CARD_OFFSET + CARD_REGSIZE + CARD_MEMSIZE) - 0x1000 - (2 * (1 << p->Size)));
- memcpy(dest, p->Memory, (2 * (1 << p->Size)));
+ unsigned long dest = CARD_SCRATCH;
+ memcpy((unsigned char *)dest, p->Memory, (2 * (1 << p->Size)));
WRITELONG(RTG_ADDR1, (unsigned long)dest);
}
WRITEBYTE(RTG_U83, (1 << p->Size));
WRITESHORT(RTG_COMMAND, RTGCMD_BLITPATTERN);
}
+
+void DrawLine (__REGA0(struct BoardInfo *b), __REGA1(struct RenderInfo *r), __REGA2(struct Line *l), __REGD0(UBYTE mask), __REGD7(RGBFTYPE format)) {
+ if (!r || !b) return;
+
+ WRITELONG(RTG_ADDR1, (unsigned long)r->Memory);
+
+ WRITELONG(RTG_RGB1, l->FgPen);
+ WRITELONG(RTG_RGB2, l->BgPen);
+
+ WRITESHORT(RTG_FORMAT, rgbf_to_rtg[format]);
+
+ WRITESHORT(RTG_X1, l->X);
+ WRITESHORT(RTG_X2, l->dX);
+ WRITESHORT(RTG_Y1, l->Y);
+ WRITESHORT(RTG_Y2, l->dY);
+
+ WRITESHORT(RTG_X3, l->Length);
+ WRITESHORT(RTG_Y3, l->LinePtrn);
+
+ WRITESHORT(RTG_X4, r->BytesPerRow);
+ WRITESHORT(RTG_X5, l->PatternShift);
+
+ WRITEBYTE(RTG_U81, mask);
+ WRITEBYTE(RTG_U82, l->DrawMode);
+ WRITEBYTE(RTG_U83, l->pad);
+
+ WRITESHORT(RTG_COMMAND, RTGCMD_DRAWLINE);
+}
+
+void BlitPlanar2Chunky_Broken (__REGA0(struct BoardInfo *b), __REGA1(struct BitMap *bm), __REGA2(struct RenderInfo *r), __REGD0(SHORT x), __REGD1(SHORT y), __REGD2(SHORT dx), __REGD3(SHORT dy), __REGD4(SHORT w), __REGD5(SHORT h), __REGD6(UBYTE minterm), __REGD7(UBYTE mask)) {
+ if (!r || !b || !bm) return;
+
+ //unsigned long bmp_size = bm->BytesPerRow * bm->Rows;
+ unsigned char planemask_0 = 0, planemask = 0;
+ //unsigned short line_size = (w >> 3) + 2;
+ //unsigned long output_plane_size = line_size * h;
+ unsigned long plane_size = bm->BytesPerRow * bm->Rows;
+ short x_offset = (x >> 3);
+
+ unsigned long dest = CARD_SCRATCH;
+
+ WRITELONG(RTG_ADDR1, (unsigned long)r->Memory);
+ WRITELONG(RTG_ADDR2, (unsigned long)dest);
+ WRITELONG(RTG_ADDR3, (unsigned long)bm->Planes[0]);
+
+ for (unsigned short i = 0; i < bm->Depth; i++) {
+ if ((unsigned long)bm->Planes[i] == 0xFFFFFFFF) {
+ planemask |= (1 << i);
+ }
+ else if (bm->Planes[i] == NULL) {
+ planemask_0 |= (1 << i);
+ }
+ else {
+ unsigned long bmp_mem = (unsigned long)(bm->Planes[i]) + x_offset + (y * bm->BytesPerRow);
+ unsigned long plane_dest = dest;
+ for (unsigned short y_line = 0; y_line < h; y_line++) {
+ memcpy((unsigned char *)plane_dest, (unsigned char *)bmp_mem, bm->BytesPerRow);
+ plane_dest += bm->BytesPerRow;
+ bmp_mem += bm->BytesPerRow;
+ }
+ }
+ dest += plane_size;
+ }
+
+ WRITESHORT(RTG_X1, x % 0x07);
+ WRITESHORT(RTG_X2, dx);
+ WRITESHORT(RTG_X3, w);
+ WRITESHORT(RTG_Y1, 0);
+ WRITESHORT(RTG_Y2, dy);
+ WRITESHORT(RTG_Y3, h);
+
+ WRITESHORT(RTG_Y4, bm->Rows);
+ WRITESHORT(RTG_X4, r->BytesPerRow);
+ WRITESHORT(RTG_U1, planemask_0 << 8 | planemask);
+ WRITESHORT(RTG_U2, bm->BytesPerRow);
+
+ WRITEBYTE(RTG_U81, mask);
+ WRITEBYTE(RTG_U82, minterm);
+ WRITEBYTE(RTG_U83, bm->Depth);
+
+ WRITESHORT(RTG_COMMAND, RTGCMD_P2C);
+}
+
+void BlitPlanar2Chunky (__REGA0(struct BoardInfo *b), __REGA1(struct BitMap *bm), __REGA2(struct RenderInfo *r), __REGD0(SHORT x), __REGD1(SHORT y), __REGD2(SHORT dx), __REGD3(SHORT dy), __REGD4(SHORT w), __REGD5(SHORT h), __REGD6(UBYTE minterm), __REGD7(UBYTE mask)) {
+ if (!b || !r)
+ return;
+
+ uint32_t plane_size = bm->BytesPerRow * bm->Rows;
+
+ uint32_t template_addr = CARD_SCRATCH;
+
+ uint16_t plane_mask = mask;
+ uint8_t ff_mask = 0x00;
+ uint8_t cur_plane = 0x01;
+
+ uint16_t line_size = (w >> 3) + 2;
+ uint32_t output_plane_size = line_size * h;
+ uint16_t x_offset = (x >> 3);
+
+ WRITELONG(RTG_ADDR1, (unsigned long)r->Memory);
+ WRITELONG(RTG_ADDR2, template_addr);
+ WRITESHORT(RTG_X4, r->BytesPerRow);
+ WRITESHORT(RTG_X5, line_size);
+ WRITESHORT(RTG_FORMAT, rgbf_to_rtg[r->RGBFormat]);
+
+ WRITEBYTE(RTG_U81, mask);
+ WRITEBYTE(RTG_U82, minterm);
+
+ for (int16_t i = 0; i < bm->Depth; i++) {
+ uint16_t x_offset = (x >> 3);
+ if ((uint32_t)bm->Planes[i] == 0xFFFFFFFF) {
+ //memset((uint8_t*)(((uint32_t)b->memory)+template_addr), 0xFF, output_plane_size);
+ ff_mask |= cur_plane;
+ }
+ else if (bm->Planes[i] != NULL) {
+ uint8_t* bmp_mem = (uint8_t*)bm->Planes[i] + (y * bm->BytesPerRow) + x_offset;
+ uint8_t* dest = (uint8_t*)((uint32_t)template_addr);
+ for (int16_t y_line = 0; y_line < h; y_line++) {
+ memcpy(dest, bmp_mem, line_size);
+ dest += line_size;
+ bmp_mem += bm->BytesPerRow;
+ }
+ }
+ else {
+ plane_mask &= (cur_plane ^ 0xFF);
+ }
+ cur_plane <<= 1;
+ template_addr += output_plane_size;
+ }
+
+ WRITESHORT(RTG_X1, (x & 0x07));
+ WRITESHORT(RTG_X2, dx);
+ WRITESHORT(RTG_X3, w);
+ WRITESHORT(RTG_Y1, 0);
+ WRITESHORT(RTG_Y2, dy);
+ WRITESHORT(RTG_Y3, h);
+
+ WRITESHORT(RTG_U1, (plane_mask << 8 | ff_mask));
+ WRITEBYTE(RTG_U83, bm->Depth);
+
+ WRITESHORT(RTG_COMMAND, RTGCMD_P2C);
+}
+
+void BlitPlanar2Direct (__REGA0(struct BoardInfo *b), __REGA1(struct BitMap *bmp), __REGA2(struct RenderInfo *r), __REGA3(struct ColorIndexMapping *clut), __REGD0(SHORT x), __REGD1(SHORT y), __REGD2(SHORT dx), __REGD3(SHORT dy), __REGD4(SHORT w), __REGD5(SHORT h), __REGD6(UBYTE minterm), __REGD7(UBYTE mask)) {
+
+}