summaryrefslogtreecommitdiffstatshomepage
path: root/src/mame
diff options
context:
space:
mode:
Diffstat (limited to 'src/mame')
-rw-r--r--src/mame/includes/chihiro.h48
-rw-r--r--src/mame/video/chihiro.cpp1173
2 files changed, 630 insertions, 591 deletions
diff --git a/src/mame/includes/chihiro.h b/src/mame/includes/chihiro.h
index 0a1915157c6..3705299c919 100644
--- a/src/mame/includes/chihiro.h
+++ b/src/mame/includes/chihiro.h
@@ -210,15 +210,15 @@ public:
POLYGON = 10
};
enum class NV2A_VERTEX_ATTR {
- POS = 0,
- WEIGHT = 1,
- NORMAL = 2,
+ POS = 0, // position
+ WEIGHT = 1, // blend weigth
+ NORMAL = 2,
COLOR0 = 3, // diffuse
COLOR1 = 4, // specular
FOG = 5,
- BACKCOLOR0 = 7, // diffuse
- BACKCOLOR1 = 8, // specular
- TEX0 = 9,
+ BACKCOLOR0 = 7, // back diffuse
+ BACKCOLOR1 = 8, // back specular
+ TEX0 = 9, // texture coordinate
TEX1 = 10,
TEX2 = 11,
TEX3 = 12
@@ -395,6 +395,8 @@ public:
blend_function_source = NV2A_BLEND_FACTOR::ONE;
logical_operation_enabled = false;
logical_operation = NV2A_LOGIC_OP::COPY;
+ for (int n = 0; n < 8; n++)
+ clippingwindows[n].set(0, 0, 640, 480);
limits_rendertarget.set(0, 0, 640, 480);
pitch_rendertarget = 0;
pitch_depthbuffer = 0;
@@ -409,16 +411,20 @@ public:
clear_rendertarget.set(0, 0, 639, 479);
primitive_type = NV2A_BEGIN_END::STOP;
antialias_control = 0;
+ supersample_factor_x = 1.0;
+ supersample_factor_y = 1.0;
rendertarget = nullptr;
depthbuffer = nullptr;
displayedtarget = nullptr;
- puller_channel = 0;
puller_waiting = 0;
debug_grab_texttype = -1;
debug_grab_textfile = nullptr;
waitvblank_used = 1;
memset(vertex_attribute_words, 0, sizeof(vertex_attribute_words));
memset(vertex_attribute_offset, 0, sizeof(vertex_attribute_offset));
+ memset(&persistvertexattr, 0, sizeof(persistvertexattr));
+ for (int n = 0; n < 16; n++)
+ persistvertexattr.attribute[n].fv[3] = 1;
}
DECLARE_READ32_MEMBER(geforce_r);
DECLARE_WRITE32_MEMBER(geforce_w);
@@ -470,12 +476,15 @@ public:
void debug_grab_vertex_program_slot(int slot, UINT32 *instruction);
void start(address_space *cpu_space);
void savestate_items();
+ void compute_supersample_factors(float &horizontal, float &vertical);
+ void compute_limits_rendertarget(UINT32 chanel, UINT32 subchannel);
void read_vertex(address_space & space, offs_t address, vertex_nv &vertex, int attrib);
int read_vertices_0x1800(address_space & space, vertex_nv *destination, UINT32 address, int limit);
int read_vertices_0x1808(address_space & space, vertex_nv *destination, UINT32 address, int limit);
int read_vertices_0x1810(address_space & space, vertex_nv *destination, int offset, int limit);
int read_vertices_0x1818(address_space & space, vertex_nv *destination, UINT32 address, int limit);
void convert_vertices_poly(vertex_nv *source, vertex_t *destination, int count);
+ void assemble_primitive(vertex_nv *source, int count, render_delegate &renderspans);
UINT32 render_triangle_culling(const rectangle &cliprect, render_delegate callback, int paramcount, const vertex_t &_v1, const vertex_t &_v2, const vertex_t &_v3);
void clear_render_target(int what, UINT32 value);
void clear_depth_buffer(int what, UINT32 value);
@@ -488,6 +497,7 @@ public:
UINT32 objhandle;
UINT32 objclass;
UINT32 method[0x2000 / 4];
+ // int execute_method(address_space & space, UINT32 method, UINT32 address, int &countlen); // for the future
} object;
} channel[32][8];
UINT32 pfifo[0x2000 / 4];
@@ -498,7 +508,9 @@ public:
UINT32 dma_offset[2];
UINT32 dma_size[2];
UINT8 *basemempointer;
+ UINT8 *topmempointer;
pic8259_device *interruptdevice;
+ rectangle clippingwindows[8];
rectangle limits_rendertarget;
UINT32 pitch_rendertarget;
UINT32 pitch_depthbuffer;
@@ -512,6 +524,8 @@ public:
int bytespixel_rendertarget;
rectangle clear_rendertarget;
UINT32 antialias_control;
+ float supersample_factor_x;
+ float supersample_factor_y;
UINT32 *rendertarget;
UINT32 *depthbuffer;
UINT32 *displayedtarget;
@@ -526,18 +540,35 @@ public:
int sizew;
int dilate;
NV2A_TEX_FORMAT format;
+ bool rectangle;
int rectangle_pitch;
void *buffer;
+ int dma0;
+ int dma1;
+ int cubic;
+ int noborder;
+ int dims;
+ int mipmap;
+ int colorkey;
+ int imagefield;
+ int aniso;
+ int mipmapmaxlod;
+ int mipmapminlod;
+ int rectheight;
+ int rectwidth;
} texture[4];
NV2A_BEGIN_END primitive_type;
- int primitives_count;
+ UINT32 primitives_count;
int indexesleft_count;
int indexesleft_first;
UINT32 indexesleft[1024]; // vertex indices sent by the software to the 3d accelerator
int vertex_count;
unsigned int vertex_first;
+ int vertex_accumulated;
vertex_nv vertex_software[1024+2]; // vertex attributes sent by the software to the 3d accelerator
vertex_t vertex_xy[1024+2]; // vertex attributes computed by the 3d accelerator
+ vertex_nv persistvertexattr; // persistent vertex attributes
+ render_delegate render_spans_callback;
struct {
float variable_A[4]; // 0=R 1=G 2=B 3=A
@@ -687,7 +718,6 @@ public:
int vertex_attribute_words[16];
int vertex_attribute_offset[16];
emu_timer *puller_timer;
- int puller_channel;
int puller_waiting;
address_space *puller_space;
UINT32 dilated0[16][2048];
diff --git a/src/mame/video/chihiro.cpp b/src/mame/video/chihiro.cpp
index f34d5a469ea..5edc9fd46ae 100644
--- a/src/mame/video/chihiro.cpp
+++ b/src/mame/video/chihiro.cpp
@@ -1055,10 +1055,25 @@ UINT32 nv2a_renderer::texture_get_texel(int number, int x, int y)
UINT32 codes;
UINT64 alphas;
int cr, cg, cb;
+ int sizeu, sizev;
// force to [0,size-1]
- x = (unsigned int)x & (texture[number].sizeu - 1);
- y = (unsigned int)y & (texture[number].sizev - 1);
+ if (texture[number].rectangle == false) {
+ sizeu = texture[number].sizeu;
+ sizev = texture[number].sizev;
+ x = (unsigned int)x & (sizeu - 1);
+ y = (unsigned int)y & (sizev - 1);
+ } else
+ {
+ sizeu = texture[number].rectwidth;
+ sizev = texture[number].rectheight;
+ x = x % sizeu;
+ if (x < 0)
+ x = sizeu + x;
+ y = y % sizev;
+ if (y < 0)
+ y = sizev + y;
+ }
switch (texture[number].format) {
case NV2A_TEX_FORMAT::A8R8G8B8:
to = dilated0[texture[number].dilate][x] + dilated1[texture[number].dilate][y]; // offset of texel in texture memory
@@ -1068,7 +1083,7 @@ UINT32 nv2a_renderer::texture_get_texel(int number, int x, int y)
by = y >> 2;
x = x & 3;
y = y & 3;
- to = bx + by*(texture[number].sizeu >> 2);
+ to = bx + by*(sizeu >> 2);
color0 = *((UINT16 *)(((UINT64 *)texture[number].buffer) + to) + 0);
color1 = *((UINT16 *)(((UINT64 *)texture[number].buffer) + to) + 1);
codes = *((UINT32 *)(((UINT64 *)texture[number].buffer) + to) + 1);
@@ -1109,7 +1124,7 @@ UINT32 nv2a_renderer::texture_get_texel(int number, int x, int y)
by = y >> 2;
x = x & 3;
y = y & 3;
- to = (bx + by*(texture[number].sizeu >> 2)) << 1;
+ to = (bx + by*(sizeu >> 2)) << 1;
color0 = *((UINT16 *)(((UINT64 *)texture[number].buffer) + to) + 4);
color1 = *((UINT16 *)(((UINT64 *)texture[number].buffer) + to) + 5);
codes = *((UINT32 *)(((UINT64 *)texture[number].buffer) + to) + 3);
@@ -1157,7 +1172,7 @@ UINT32 nv2a_renderer::texture_get_texel(int number, int x, int y)
by = y >> 2;
x = x & 3;
y = y & 3;
- to = (bx + by*(texture[number].sizeu >> 2)) << 1;
+ to = (bx + by*(sizeu >> 2)) << 1;
color0 = *((UINT16 *)(((UINT64 *)texture[number].buffer) + to) + 4);
color1 = *((UINT16 *)(((UINT64 *)texture[number].buffer) + to) + 5);
codes = *((UINT32 *)(((UINT64 *)texture[number].buffer) + to) + 3);
@@ -1894,7 +1909,7 @@ void nv2a_renderer::render_color(INT32 scanline, const extent_t &extent, const n
{
int x;
- if ((extent.startx < 0) || (extent.stopx > 640))
+ if ((extent.startx < 0) || (extent.stopx > 640*4))
return;
x = extent.stopx - extent.startx - 1; // number of pixels to draw
while (x >= 0) {
@@ -1923,15 +1938,21 @@ void nv2a_renderer::render_texture_simple(INT32 scanline, const extent_t &extent
if (!objectdata.data->texture[0].enabled) {
return;
}
- if ((extent.startx < 0) || (extent.stopx > 640))
+ if ((extent.startx < 0) || (extent.stopx > 640*4))
return;
x = extent.stopx - extent.startx - 1;
while (x >= 0) {
int up, vp;
int xp = extent.startx + x; // x coordinate of current pixel
- up = (extent.param[(int)VERTEX_PARAMETER::PARAM_TEXTURE0_U].start + (float)x*extent.param[(int)VERTEX_PARAMETER::PARAM_TEXTURE0_U].dpdx)*(float)(objectdata.data->texture[0].sizeu - 1); // x coordinate of texel in texture
- vp = (extent.param[(int)VERTEX_PARAMETER::PARAM_TEXTURE0_V].start + (float)x*extent.param[(int)VERTEX_PARAMETER::PARAM_TEXTURE0_V].dpdx)*(float)(objectdata.data->texture[0].sizev - 1); // y coordinate of texel in texture
+ if (objectdata.data->texture[0].rectangle == false) {
+ up = (extent.param[(int)VERTEX_PARAMETER::PARAM_TEXTURE0_U].start + (float)x*extent.param[(int)VERTEX_PARAMETER::PARAM_TEXTURE0_U].dpdx)*(float)(objectdata.data->texture[0].sizeu - 1); // x coordinate of texel in texture
+ vp = (extent.param[(int)VERTEX_PARAMETER::PARAM_TEXTURE0_V].start + (float)x*extent.param[(int)VERTEX_PARAMETER::PARAM_TEXTURE0_V].dpdx)*(float)(objectdata.data->texture[0].sizev - 1); // y coordinate of texel in texture
+ } else
+ {
+ up = extent.param[(int)VERTEX_PARAMETER::PARAM_TEXTURE0_U].start + (float)x*extent.param[(int)VERTEX_PARAMETER::PARAM_TEXTURE0_U].dpdx; // x coordinate of texel in texture
+ vp = extent.param[(int)VERTEX_PARAMETER::PARAM_TEXTURE0_V].start + (float)x*extent.param[(int)VERTEX_PARAMETER::PARAM_TEXTURE0_V].dpdx; // y coordinate of texel in texture
+ }
a8r8g8b8 = texture_get_texel(0, up, vp);
z = (extent.param[(int)VERTEX_PARAMETER::PARAM_Z].start + (float)x*extent.param[(int)VERTEX_PARAMETER::PARAM_Z].dpdx);
write_pixel(xp, scanline, a8r8g8b8, z);
@@ -1951,7 +1972,7 @@ void nv2a_renderer::render_register_combiners(INT32 scanline, const extent_t &ex
color[0] = color[1] = color[2] = color[3] = color[4] = color[5] = 0;
- if ((extent.startx < 0) || (extent.stopx > 640))
+ if ((extent.startx < 0) || (extent.stopx > 640*4))
return;
std::lock_guard<std::mutex> lock(combiner.lock); // needed since multithreading is not supported yet
x = extent.stopx - extent.startx - 1; // number of pixels to draw
@@ -1968,8 +1989,14 @@ void nv2a_renderer::render_register_combiners(INT32 scanline, const extent_t &ex
// 1.2: color for each of the 4 possible textures
for (n = 0; n < 4; n++) {
if (texture[n].enabled) {
- up = (extent.param[(int)VERTEX_PARAMETER::PARAM_TEXTURE0_U + n * 2].start + (float)x*extent.param[(int)VERTEX_PARAMETER::PARAM_TEXTURE0_U + n * 2].dpdx)*(float)(objectdata.data->texture[n].sizeu - 1);
- vp = extent.param[(int)VERTEX_PARAMETER::PARAM_TEXTURE0_V + n * 2].start*(float)(objectdata.data->texture[n].sizev - 1);
+ if (texture[n].rectangle == false) {
+ up = (extent.param[(int)VERTEX_PARAMETER::PARAM_TEXTURE0_U + n * 2].start + (float)x*extent.param[(int)VERTEX_PARAMETER::PARAM_TEXTURE0_U + n * 2].dpdx)*(float)(objectdata.data->texture[n].sizeu - 1);
+ vp = (extent.param[(int)VERTEX_PARAMETER::PARAM_TEXTURE0_V + n * 2].start + (float)x*extent.param[(int)VERTEX_PARAMETER::PARAM_TEXTURE0_V + n * 2].dpdx)*(float)(objectdata.data->texture[n].sizev - 1);
+ } else
+ {
+ up = extent.param[(int)VERTEX_PARAMETER::PARAM_TEXTURE0_U + n * 2].start + (float)x*extent.param[(int)VERTEX_PARAMETER::PARAM_TEXTURE0_U + n * 2].dpdx;
+ vp = extent.param[(int)VERTEX_PARAMETER::PARAM_TEXTURE0_V + n * 2].start + (float)x*extent.param[(int)VERTEX_PARAMETER::PARAM_TEXTURE0_V + n * 2].dpdx;
+ }
color[n + 2] = texture_get_texel(n, up, vp);
}
}
@@ -2203,6 +2230,7 @@ int nv2a_renderer::read_vertices_0x1800(address_space & space, vertex_nv *destin
address += 4;
c++;
}
+ memcpy(&destination[m], &persistvertexattr, sizeof(persistvertexattr));
b = enabled_vertex_attributes;
for (a = 0; a < 16; a++) {
if (b & 1) {
@@ -2236,6 +2264,7 @@ int nv2a_renderer::read_vertices_0x1808(address_space & space, vertex_nv *destin
address += 4;
c++;
}
+ memcpy(&destination[m], &persistvertexattr, sizeof(persistvertexattr));
b = enabled_vertex_attributes;
for (a = 0; a < 16; a++) {
if (b & 1) {
@@ -2255,10 +2284,8 @@ int nv2a_renderer::read_vertices_0x1810(address_space & space, vertex_nv *destin
UINT32 m;
int a, b;
-#ifdef MAME_DEBUG
- memset(destination, 0, sizeof(vertex_nv)*limit);
-#endif
for (m = 0; m < limit; m++) {
+ memcpy(&destination[m], &persistvertexattr, sizeof(persistvertexattr));
b = enabled_vertex_attributes;
for (a = 0; a < 16; a++) {
if (b & 1) {
@@ -2281,6 +2308,7 @@ int nv2a_renderer::read_vertices_0x1818(address_space & space, vertex_nv *destin
#endif
vwords = vertex_attribute_words[15] + vertex_attribute_offset[15];
for (m = 0; m < limit; m++) {
+ memcpy(&destination[m], &persistvertexattr, sizeof(persistvertexattr));
b = enabled_vertex_attributes;
for (a = 0; a < 16; a++) {
if (b & 1) {
@@ -2293,6 +2321,41 @@ int nv2a_renderer::read_vertices_0x1818(address_space & space, vertex_nv *destin
return (int)(m*vwords);
}
+void nv2a_renderer::compute_supersample_factors(float &horizontal, float &vertical)
+{
+ float mx, my;
+
+ mx = 1;
+ my = 1;
+ switch (((antialias_control & 1) << 2) | antialiasing_rendertarget)
+ {
+ case 0:
+ mx = my = 1;
+ break;
+ case 1:
+ mx = 2; my = 1;
+ break;
+ case 2:
+ mx = my = 2;
+ break;
+ case 4:
+ mx = my = 1;
+ break;
+ case 5:
+ mx = 2;
+ my = 1;
+ break;
+ case 6:
+ mx = 2;
+ my = 2;
+ break;
+ default:
+ mx = my = 1;
+ }
+ horizontal = mx;
+ vertical = my;
+}
+
void nv2a_renderer::convert_vertices_poly(vertex_nv *source, vertex_t *destination, int count)
{
vertex_nv vert[4];
@@ -2315,16 +2378,15 @@ void nv2a_renderer::convert_vertices_poly(vertex_nv *source, vertex_t *destinati
for (int j = 0; j < 4; j++)
v[i] += matrix.projection[i][j] * t[j];
};
- /*
- for (int i = 0; i < 4; i++) {
- v[i] *= matrix.scale[i];
- }
+ /*if (matrix.scale[3] != 0)
+ for (int i = 0; i < 4; i++) {
+ v[i] *= matrix.scale[i];
+ }
for (int i = 0; i < 4; i++) {
- v[i] += matrix.translate[i];
- }
- */
- destination[m].x = v[0] / v[3]; // source[m].attribute[0].fv[0];
- destination[m].y = v[1] / v[3]; // source[m].attribute[0].fv[1];
+ v[i] += matrix.translate[i];
+ }*/
+ destination[m].x = (v[0] / v[3])*supersample_factor_x; // source[m].attribute[0].fv[0];
+ destination[m].y = (v[1] / v[3])*supersample_factor_y; // source[m].attribute[0].fv[1];
for (u = (int)VERTEX_PARAMETER::PARAM_COLOR_B; u <= (int)VERTEX_PARAMETER::PARAM_COLOR_A; u++) // 0=b 1=g 2=r 3=a
destination[m].p[u] = source[m].attribute[3].fv[u];
for (u = 0; u < 4; u++) {
@@ -2340,8 +2402,8 @@ void nv2a_renderer::convert_vertices_poly(vertex_nv *source, vertex_t *destinati
vertexprogram.exec.process(vertexprogram.start_instruction, source, vert, count);
// copy data for poly.c
for (m = 0; m < count; m++) {
- destination[m].x = vert[m].attribute[0].fv[0];
- destination[m].y = vert[m].attribute[0].fv[1];
+ destination[m].x = vert[m].attribute[0].fv[0] * supersample_factor_x;
+ destination[m].y = vert[m].attribute[0].fv[1] * supersample_factor_y;
for (u = (int)VERTEX_PARAMETER::PARAM_COLOR_B; u <= (int)VERTEX_PARAMETER::PARAM_COLOR_A; u++) // 0=b 1=g 2=r 3=a
destination[m].p[u] = vert[m].attribute[3].fv[u];
for (u = 0; u < 4; u++) {
@@ -2355,7 +2417,6 @@ void nv2a_renderer::convert_vertices_poly(vertex_nv *source, vertex_t *destinati
void nv2a_renderer::clear_render_target(int what, UINT32 value)
{
- int m;
int xi, yi, xf, yf;
int x, y;
UINT32 color;
@@ -2397,27 +2458,37 @@ void nv2a_renderer::clear_render_target(int what, UINT32 value)
default:
return;
}
- m = antialias_control;
- if (antialiasing_rendertarget != 0)
- m = 2;
- else
- m = 1;
- xi = limits_rendertarget.left();
- if (clear_rendertarget.left() > xi)
- xi = clear_rendertarget.left();
- xf = limits_rendertarget.right();
- if (clear_rendertarget.right() < xf)
- xf = clear_rendertarget.right();
- yi = limits_rendertarget.top();
- if (clear_rendertarget.top() > yi)
- yi = clear_rendertarget.top();
- yf = limits_rendertarget.bottom();
- if (clear_rendertarget.bottom() < yf)
- yf = clear_rendertarget.bottom();
- xi = xi*m;
- yi = yi*m;
- xf = xf*m;
- yf = yf*m;
+ xi = clear_rendertarget.left()*supersample_factor_x;
+ yi = clear_rendertarget.top()*supersample_factor_y;
+ xf = clear_rendertarget.right()*supersample_factor_x;
+ yf = clear_rendertarget.bottom()*supersample_factor_y;
+ if ((xi < limits_rendertarget.left()) && (xf < limits_rendertarget.left()))
+ return;
+ if ((xi > limits_rendertarget.right()) && (xf > limits_rendertarget.right()))
+ return;
+ if ((yi < limits_rendertarget.top()) && (yf < limits_rendertarget.top()))
+ return;
+ if ((yi > limits_rendertarget.bottom()) && (yf > limits_rendertarget.bottom()))
+ return;
+ if (xi < limits_rendertarget.left())
+ xi = limits_rendertarget.left();
+ if (xf > limits_rendertarget.right())
+ xf = limits_rendertarget.right();
+ if (yi < limits_rendertarget.top())
+ yi = limits_rendertarget.top();
+ if (yf > limits_rendertarget.bottom())
+ yf = limits_rendertarget.bottom();
+ if (type_rendertarget == NV2A_RT_TYPE::SWIZZLED)
+ offset = (dilated0[dilate_rendertarget][xf] + dilated1[dilate_rendertarget][yf]) * bytespixel_rendertarget;
+ else // type_rendertarget == LINEAR
+ offset = pitch_rendertarget * yf + xf * bytespixel_rendertarget;
+ addr = (UINT8 *)rendertarget + offset;
+ if ((addr < basemempointer) || (addr > topmempointer))
+ {
+ machine().logerror("Bad memory pointer computed in clear_render_target !\n");
+ return;
+ }
+
for (y = yi; y <= yf; y++)
for (x = xi; x <= xf; x++) {
if (type_rendertarget == NV2A_RT_TYPE::SWIZZLED)
@@ -2463,90 +2534,98 @@ void nv2a_renderer::clear_render_target(int what, UINT32 value)
default:
return;
}
-
}
#ifdef LOG_NV2A
- printf("clearscreen\n\r");
+ printf("clearscreen\n\r");
#endif
}
void nv2a_renderer::clear_depth_buffer(int what, UINT32 value)
{
- int m;
+ int xi, yi, xf, yf;
+ int x, y;
+ UINT32 color;
+ UINT8 *addr;
+ UINT32 mask;
+ UINT32 offset;
+ UINT32 bpp;
if (what == 0)
return;
- m = antialias_control;
- if (antialiasing_rendertarget != 0)
- m = 2;
- else
- m = 1;
- if (what == 3) {
- if (depthformat_rendertarget == NV2A_RT_DEPTH_FORMAT::Z24S8) {
- UINT32 *p, *pl;
- int x, y;
-
- pl = (UINT32 *)depthbuffer;
- for (y = (limits_rendertarget.bottom() + 1) * m; y != 0; y--) {
- p = pl;
- for (x = (limits_rendertarget.right() + 1) * m; x != 0; x--) {
- *p = value;
- p++;
- }
- pl = pl + pitch_rendertarget / 4;
- }
- }
- else if (depthformat_rendertarget == NV2A_RT_DEPTH_FORMAT::Z16) {
- UINT16 *p, *pl;
- int x, y;
-
- pl = (UINT16 *)depthbuffer;
- for (y = (limits_rendertarget.bottom() + 1) * m; y != 0; y--) {
- p = pl;
- for (x = (limits_rendertarget.right() + 1) * m; x != 0; x--) {
- *p = (UINT16)value;
- p++;
- }
- pl = pl + pitch_rendertarget / 2;
- }
- }
+ mask = 0;
+ switch (depthformat_rendertarget) {
+ case NV2A_RT_DEPTH_FORMAT::Z24S8:
+ if (what & 1)
+ mask = 0xffffff00;
+ if (what & 2)
+ mask = mask | 0xff;
+ bpp = 4;
+ break;
+ case NV2A_RT_DEPTH_FORMAT::Z16:
+ if (what & 1)
+ mask = 0xffff;
+ bpp = 2;
+ break;
+ default:
+ return;
+ }
+ xi = clear_rendertarget.left()*supersample_factor_x;
+ yi = clear_rendertarget.top()*supersample_factor_y;
+ xf = clear_rendertarget.right()*supersample_factor_x;
+ yf = clear_rendertarget.bottom()*supersample_factor_y;
+ if ((xi < limits_rendertarget.left()) && (xf < limits_rendertarget.left()))
+ return;
+ if ((xi > limits_rendertarget.right()) && (xf > limits_rendertarget.right()))
+ return;
+ if ((yi < limits_rendertarget.top()) && (yf < limits_rendertarget.top()))
+ return;
+ if ((yi > limits_rendertarget.bottom()) && (yf > limits_rendertarget.bottom()))
+ return;
+ if (xi < limits_rendertarget.left())
+ xi = limits_rendertarget.left();
+ if (xf > limits_rendertarget.right())
+ xf = limits_rendertarget.right();
+ if (yi < limits_rendertarget.top())
+ yi = limits_rendertarget.top();
+ if (yf > limits_rendertarget.bottom())
+ yf = limits_rendertarget.bottom();
+ offset = pitch_depthbuffer * yf + xf * bpp;
+ addr = (UINT8 *)depthbuffer + offset;
+ if ((addr < basemempointer) || (addr > topmempointer))
+ {
+ machine().logerror("Bad memory pointer computed in clear_depth_buffer !\n");
+ return;
}
- else {
- if (depthformat_rendertarget == NV2A_RT_DEPTH_FORMAT::Z24S8) {
- UINT32 mask;
- UINT32 *p, *pl;
- int x, y;
- if ((what & 0x03) == 2)
- mask = 0x000000ff;
- else
- mask = 0xffffff00;
- value = value & mask;
- pl = depthbuffer;
- for (y = (limits_rendertarget.bottom() + 1) * m; y != 0; y--) {
- p = pl;
- for (x = (limits_rendertarget.right() + 1) * m; x != 0; x--) {
- *p = (*p & ~mask) | value;
- p++;
- }
- pl = pl + pitch_rendertarget / 4;
+ for (y = yi; y <= yf; y++)
+ for (x = xi; x <= xf; x++) {
+ offset = pitch_depthbuffer * y + x * bpp;
+ switch (depthformat_rendertarget) {
+ case NV2A_RT_DEPTH_FORMAT::Z16:
+ addr = (UINT8 *)depthbuffer + offset;
+ color = *((UINT16 *)addr);
+ break;
+ case NV2A_RT_DEPTH_FORMAT::Z24S8:
+ addr = (UINT8 *)depthbuffer + offset;
+ color = *((UINT32 *)addr);
+ break;
+ default:
+ return;
}
- }
- else if ((depthformat_rendertarget == NV2A_RT_DEPTH_FORMAT::Z16) && (what == 1)) {
- UINT16 *p, *pl;
- int x, y;
-
- pl = (UINT16 *)depthbuffer;
- for (y = (limits_rendertarget.bottom() + 1) * m; y != 0; y--) {
- p = pl;
- for (x = (limits_rendertarget.right() + 1) * m; x != 0; x--) {
- *p = (UINT16)value;
- p++;
- }
- pl = pl + pitch_rendertarget / 2;
+ color = (color & ~mask) | (value & mask);
+ switch (depthformat_rendertarget) {
+ case NV2A_RT_DEPTH_FORMAT::Z16:
+ addr = (UINT8 *)depthbuffer + offset;
+ *((UINT16 *)addr) = color;
+ break;
+ case NV2A_RT_DEPTH_FORMAT::Z24S8:
+ addr = (UINT8 *)depthbuffer + offset;
+ *((UINT32 *)addr) = color;
+ break;
+ default:
+ return;
}
}
- }
}
UINT32 nv2a_renderer::render_triangle_culling(const rectangle &cliprect, render_delegate callback, int paramcount, const vertex_t &_v1, const vertex_t &_v2, const vertex_t &_v3)
@@ -2581,6 +2660,137 @@ UINT32 nv2a_renderer::render_triangle_culling(const rectangle &cliprect, render_
return 0;
}
+void nv2a_renderer::assemble_primitive(vertex_nv *source, int count, render_delegate &renderspans)
+{
+ for (; count > 0; count--) {
+ if (primitive_type == NV2A_BEGIN_END::QUADS) {
+ convert_vertices_poly(source, vertex_xy + vertex_count + vertex_accumulated, 1);
+ vertex_accumulated++;
+ if (vertex_accumulated == 4) {
+ primitives_count++;
+ vertex_accumulated = 0;
+ render_triangle_culling(limits_rendertarget, renderspans, 4 + 4 * 2, vertex_xy[vertex_count], vertex_xy[vertex_count + 1], vertex_xy[vertex_count + 2]);
+ render_triangle_culling(limits_rendertarget, renderspans, 4 + 4 * 2, vertex_xy[vertex_count], vertex_xy[vertex_count + 2], vertex_xy[vertex_count + 3]);
+ vertex_count = (vertex_count + 4) & 1023;
+ wait();
+ }
+ }
+ else if (primitive_type == NV2A_BEGIN_END::TRIANGLES) {
+ convert_vertices_poly(source, vertex_xy + vertex_count + vertex_accumulated, 1);
+ vertex_accumulated++;
+ if (vertex_accumulated == 3) {
+ primitives_count++;
+ vertex_accumulated = 0;
+ render_triangle_culling(limits_rendertarget, renderspans, 4 + 4 * 2, vertex_xy[vertex_count], vertex_xy[(vertex_count + 1) & 1023], vertex_xy[(vertex_count + 2) & 1023]); // 4 rgba, 4 texture units 2 uv
+ vertex_count = (vertex_count + 3) & 1023;
+ wait();
+ }
+ }
+ else if (primitive_type == NV2A_BEGIN_END::TRIANGLE_FAN) {
+ if (vertex_accumulated == 0)
+ {
+ convert_vertices_poly(source, vertex_xy + 1024, 1);
+ vertex_accumulated = 1;
+ }
+ else if (vertex_accumulated == 1)
+ {
+ convert_vertices_poly(source, vertex_xy, 1);
+ vertex_accumulated = 2;
+ vertex_count = 1;
+ }
+ else
+ {
+ primitives_count++;
+ // if software sends the vertices 0 1 2 3 4 5 6
+ // hardware will draw triangles made by (0,1,2) (0,2,3) (0,3,4) (0,4,5) (0,5,6)
+ convert_vertices_poly(source, vertex_xy + vertex_count, 1);
+ render_triangle_culling(limits_rendertarget, renderspans, 4 + 4 * 2, vertex_xy[1024], vertex_xy[(vertex_count - 1) & 1023], vertex_xy[vertex_count]);
+ vertex_count = (vertex_count + 1) & 1023;
+ wait();
+ }
+ }
+ else if (primitive_type == NV2A_BEGIN_END::TRIANGLE_STRIP) {
+ if (vertex_accumulated == 0)
+ {
+ convert_vertices_poly(source, vertex_xy, 1);
+ vertex_accumulated = 1;
+ }
+ else if (vertex_accumulated == 1)
+ {
+ convert_vertices_poly(source, vertex_xy + 1, 1);
+ vertex_accumulated = 2;
+ vertex_count = 2;
+ }
+ else
+ {
+ primitives_count++;
+ // if software sends the vertices 0 1 2 3 4 5 6
+ // hardware will draw triangles made by (0,1,2) (1,3,2) (2,3,4) (3,5,4) (4,5,6)
+ convert_vertices_poly(source, vertex_xy + vertex_count, 1);
+ if ((vertex_count & 1) == 0)
+ render_triangle_culling(limits_rendertarget, renderspans, 4 + 4 * 2, vertex_xy[(vertex_count - 2) & 1023], vertex_xy[(vertex_count - 1) & 1023], vertex_xy[vertex_count]);
+ else
+ render_triangle_culling(limits_rendertarget, renderspans, 4 + 4 * 2, vertex_xy[(vertex_count - 2) & 1023], vertex_xy[vertex_count], vertex_xy[(vertex_count - 1) & 1023]);
+ vertex_count = (vertex_count + 1) & 1023;
+ wait();
+ }
+ }
+ else if (primitive_type == NV2A_BEGIN_END::QUAD_STRIP) {
+ if (vertex_accumulated == 0)
+ {
+ convert_vertices_poly(source, vertex_xy, 1);
+ vertex_accumulated = 1;
+ }
+ else if (vertex_accumulated == 1)
+ {
+ convert_vertices_poly(source, vertex_xy + 1, 1);
+ vertex_accumulated = 2;
+ vertex_count = 0;
+ }
+ else
+ {
+ convert_vertices_poly(source, vertex_xy + ((vertex_count + vertex_accumulated) & 1023), 1);
+ vertex_accumulated++;
+ if (vertex_accumulated == 4)
+ {
+ primitives_count++;
+ // quad is made of vertices vertex count +0 +1 +3 +2
+ render_triangle_culling(limits_rendertarget, renderspans, 4 + 4 * 2, vertex_xy[vertex_count + 0], vertex_xy[vertex_count + 1], vertex_xy[(vertex_count + 3) & 1023]);
+ render_triangle_culling(limits_rendertarget, renderspans, 4 + 4 * 2, vertex_xy[(vertex_count + 3) & 1023], vertex_xy[(vertex_count + 2) & 1023], vertex_xy[vertex_count + 0]);
+ vertex_accumulated = 2;
+ vertex_count = (vertex_count + 2) & 1023;
+ wait();
+ }
+ }
+ }
+ else {
+ if (vertex_count == 0)
+ machine().logerror("Unsupported primitive %d\n", int(primitive_type));
+ vertex_count++;
+ }
+ }
+}
+
+void nv2a_renderer::compute_limits_rendertarget(UINT32 chanel, UINT32 subchannel)
+{
+ UINT32 data;
+ int x, w;
+ int y, h;
+
+ data = channel[chanel][subchannel].object.method[0x0200 / 4];
+ x = data & 0xffff;
+ w = (data >> 16) & 0xffff;
+ x = x*supersample_factor_x;
+ w = w*supersample_factor_x;
+ limits_rendertarget.setx(x, x + w - 1);
+ data = channel[chanel][subchannel].object.method[0x0204 / 4];
+ y = data & 0xffff;
+ h = (data >> 16) & 0xffff;
+ y = y*supersample_factor_y;
+ h = h*supersample_factor_y;
+ limits_rendertarget.sety(y, y + h - 1);
+}
+
int nv2a_renderer::geforce_exec_method(address_space & space, UINT32 chanel, UINT32 subchannel, UINT32 method, UINT32 address, int &countlen)
{
UINT32 maddress;
@@ -2605,116 +2815,43 @@ int nv2a_renderer::geforce_exec_method(address_space & space, UINT32 chanel, UIN
#endif
vertex_count = 0;
vertex_first = 0;
+ vertex_accumulated = 0;
indexesleft_count = 0;
indexesleft_first = 0;
primitives_count = 0;
primitive_type = (NV2A_BEGIN_END)data;
+ if (data != 0) {
+ if (((channel[chanel][subchannel].object.method[0x1e60 / 4] & 7) > 0) && (combiner.used != 0)) {
+ render_spans_callback = render_delegate(FUNC(nv2a_renderer::render_register_combiners), this);
+ }
+ else if (texture[0].enabled) {
+ render_spans_callback = render_delegate(FUNC(nv2a_renderer::render_texture_simple), this);
+ }
+ else
+ render_spans_callback = render_delegate(FUNC(nv2a_renderer::render_color), this);
+ }
countlen--;
}
if (maddress == 0x1810) {
// draw vertices
int offset, count;
UINT32 n;
- render_delegate renderspans;
offset = data & 0xffffff;
count = (data >> 24) & 0xff;
- if (((channel[chanel][subchannel].object.method[0x1e60 / 4] & 7) > 0) && (combiner.used != 0)) {
- renderspans = render_delegate(FUNC(nv2a_renderer::render_register_combiners), this);
- }
- else if (texture[0].enabled) {
- renderspans = render_delegate(FUNC(nv2a_renderer::render_texture_simple), this);
- }
- else
- renderspans = render_delegate(FUNC(nv2a_renderer::render_color), this);
#ifdef LOG_NV2A
printf("vertex %d %d %d\n\r", type, offset, count);
#endif
- if (primitive_type == NV2A_BEGIN_END::QUADS) {
- for (n = 0; n <= count; n += 4) {
- read_vertices_0x1810(space, vertex_software + vertex_first, n + offset, 4);
- convert_vertices_poly(vertex_software + vertex_first, vertex_xy + vertex_first, 4);
- //render_polygon<4>(limits_rendertarget, renderspans, 4 + 4 * 2, vertex_xy + vertex_first); // 4 rgba, 4 texture units 2 uv
- render_triangle_culling(limits_rendertarget, renderspans, 4 + 4 * 2, vertex_xy[vertex_first], vertex_xy[vertex_first + 1], vertex_xy[vertex_first + 2]);
- render_triangle_culling(limits_rendertarget, renderspans, 4 + 4 * 2, vertex_xy[vertex_first], vertex_xy[vertex_first + 2], vertex_xy[vertex_first + 3]);
- vertex_first = (vertex_first + 4) & 1023;
- vertex_count = vertex_count + 4;
- wait();
- }
- }
- else if (primitive_type == NV2A_BEGIN_END::TRIANGLES) {
- for (n = 0; n <= count; n += 3) {
- read_vertices_0x1810(space, vertex_software + vertex_first, n + offset, 3);
- convert_vertices_poly(vertex_software + vertex_first, vertex_xy + vertex_first, 3);
- render_triangle_culling(limits_rendertarget, renderspans, 4 + 4 * 2, vertex_xy[vertex_first], vertex_xy[(vertex_first + 1) & 1023], vertex_xy[(vertex_first + 2) & 1023]); // 4 rgba, 4 texture units 2 uv
- vertex_first = (vertex_first + 3) & 1023;
- vertex_count = vertex_count + 3;
- wait();
- }
- }
- else if (primitive_type == NV2A_BEGIN_END::TRIANGLE_FAN) {
- if (vertex_count == 0) {
- read_vertices_0x1810(space, vertex_software + 1024, offset, 1);
- convert_vertices_poly(vertex_software + 1024, vertex_xy + 1024, 1);
- read_vertices_0x1810(space, vertex_software, offset + 1, 1);
- convert_vertices_poly(vertex_software, vertex_xy, 1);
- count = count - 2;
- offset = offset + 2;
- vertex_first = 1;
- vertex_count = 2;
- }
- // if software sends the vertices 0 1 2 3 4 5 6
- // hardware will draw triangles made by (0,1,2) (0,2,3) (0,3,4) (0,4,5) (0,5,6)
- for (n = 0; n <= count; n++) {
- read_vertices_0x1810(space, vertex_software + vertex_first, offset + n, 1);
- convert_vertices_poly(vertex_software + vertex_first, vertex_xy + vertex_first, 1);
- render_triangle_culling(limits_rendertarget, renderspans, 4 + 4 * 2, vertex_xy[1024], vertex_xy[(vertex_first - 1) & 1023], vertex_xy[vertex_first]);
- vertex_first = (vertex_first + 1) & 1023;
- vertex_count = vertex_count + 1;
- wait();
- }
- }
- else if (primitive_type == NV2A_BEGIN_END::TRIANGLE_STRIP) {
- // if software sends the vertices 0 1 2 3 4 5 6
- // hardware will draw triangles made by (0,1,2) (1,3,2) (2,3,4) (3,5,4) (4,5,6)
- if (vertex_count == 0) {
- read_vertices_0x1810(space, vertex_software, offset, 2);
- convert_vertices_poly(vertex_software, vertex_xy, 2);
- count = count - 2;
- offset = offset + 2;
- vertex_first = 2;
- vertex_count = 2;
- }
- for (n = 0; n <= count; n++) {
- read_vertices_0x1810(space, vertex_software + vertex_first, offset + n, 1);
- convert_vertices_poly(vertex_software + vertex_first, vertex_xy + vertex_first, 1);
- if ((vertex_count & 1) == 0)
- render_triangle_culling(limits_rendertarget, renderspans, 4 + 4 * 2, vertex_xy[(vertex_first - 2) & 1023], vertex_xy[(vertex_first - 1) & 1023], vertex_xy[vertex_first]);
- else
- render_triangle_culling(limits_rendertarget, renderspans, 4 + 4 * 2, vertex_xy[(vertex_first - 2) & 1023], vertex_xy[vertex_first], vertex_xy[(vertex_first - 1) & 1023]);
- vertex_first = (vertex_first + 1) & 1023;
- vertex_count = vertex_count + 1;
- wait();
- }
- }
- else {
- machine().logerror("Unsupported primitive %d for method 0x1810\n", int(primitive_type));
+ for (n = 0; n <= count; n++) {
+ read_vertices_0x1810(space, vertex_software + vertex_first, n + offset, 1);
+ assemble_primitive(vertex_software + vertex_first, 1, render_spans_callback);
+ vertex_first = (vertex_first + 1) & 1023;
}
countlen--;
}
if ((maddress == 0x1800) || (maddress == 0x1808)) {
- UINT32 n;
- render_delegate renderspans;
int mult;
- if (((channel[chanel][subchannel].object.method[0x1e60 / 4] & 7) > 0) && (combiner.used != 0)) {
- renderspans = render_delegate(FUNC(nv2a_renderer::render_register_combiners), this);
- }
- else if (texture[0].enabled) {
- renderspans = render_delegate(FUNC(nv2a_renderer::render_texture_simple), this);
- }
- else
- renderspans = render_delegate(FUNC(nv2a_renderer::render_color), this);
if (maddress == 0x1800)
mult = 2;
else
@@ -2722,133 +2859,23 @@ int nv2a_renderer::geforce_exec_method(address_space & space, UINT32 chanel, UIN
// vertices are selected from the vertex buffer using an array of indexes
// each dword after 1800 contains two 16 bit index values to select the vartices
// each dword after 1808 contains a 32 bit index value to select the vartices
- if (primitive_type == NV2A_BEGIN_END::QUADS) {
- while (1) {
- int c;
-
- if ((countlen * mult + indexesleft_count) < 4)
- break;
- if (mult == 1)
- c = read_vertices_0x1808(space, vertex_software + vertex_first, address, 4);
- else
- c = read_vertices_0x1800(space, vertex_software + vertex_first, address, 4);
- address = address + c * 4;
- countlen = countlen - c;
- convert_vertices_poly(vertex_software + vertex_first, vertex_xy + vertex_first, 4);
- //render_polygon<4>(limits_rendertarget, renderspans, 4 + 4 * 2, vertex_xy + vertex_first); // 4 rgba, 4 texture units 2 uv
- render_triangle_culling(limits_rendertarget, renderspans, 4 + 4 * 2, vertex_xy[vertex_first], vertex_xy[vertex_first + 1], vertex_xy[vertex_first + 2]);
- render_triangle_culling(limits_rendertarget, renderspans, 4 + 4 * 2, vertex_xy[vertex_first], vertex_xy[vertex_first + 2], vertex_xy[vertex_first + 3]);
- vertex_first = (vertex_first + 4) & 1023;
- vertex_count = vertex_count + 4;
- wait();
- }
- }
- else if (primitive_type == NV2A_BEGIN_END::TRIANGLE_FAN) {
- int required, c, count;
-
- required = 1;
- if (vertex_count == 0)
- required = 3;
- if ((countlen * mult + indexesleft_count) >= required) {
- if (vertex_count == 0) {
- if (mult == 1)
- c = read_vertices_0x1808(space, vertex_software + 1024, address, 1);
- else
- c = read_vertices_0x1800(space, vertex_software + 1024, address, 1);
- convert_vertices_poly(vertex_software + 1024, vertex_xy + 1024, 1);
- address = address + c * 4;
- countlen = countlen - c;
- if (mult == 1)
- c = read_vertices_0x1808(space, vertex_software, address, 1);
- else
- c = read_vertices_0x1800(space, vertex_software, address, 1);
- convert_vertices_poly(vertex_software, vertex_xy, 1);
- address = address + c * 4;
- countlen = countlen - c;
- vertex_first = 1;
- vertex_count = 2;
- }
- count = countlen * mult + indexesleft_count;
- // if software sends the vertices 0 1 2 3 4 5 6
- // hardware will draw triangles made by (0,1,2) (0,2,3) (0,3,4) (0,4,5) (0,5,6)
- for (n = 1; n <= count; n++) {
- if (mult == 1)
- c = read_vertices_0x1808(space, vertex_software + vertex_first, address, 1);
- else
- c = read_vertices_0x1800(space, vertex_software + vertex_first, address, 1);
- convert_vertices_poly(vertex_software + vertex_first, vertex_xy + vertex_first, 1);
- address = address + c * 4;
- countlen = countlen - c;
- render_triangle_culling(limits_rendertarget, renderspans, 4 + 4 * 2, vertex_xy[1024], vertex_xy[(vertex_first - 1) & 1023], vertex_xy[vertex_first]);
- vertex_first = (vertex_first + 1) & 1023;
- vertex_count = vertex_count + 1;
- wait();
- }
- }
- }
- else if (primitive_type == NV2A_BEGIN_END::TRIANGLES) {
- while (1) {
- int c;
-
- if ((countlen * mult + indexesleft_count) < 3)
- break;
- if (mult == 1)
- c = read_vertices_0x1808(space, vertex_software + vertex_first, address, 3);
- else
- c = read_vertices_0x1800(space, vertex_software + vertex_first, address, 3);
- address = address + c * 4;
- countlen = countlen - c;
- convert_vertices_poly(vertex_software + vertex_first, vertex_xy + vertex_first, 3);
- render_triangle_culling(limits_rendertarget, renderspans, 4 + 4 * 2, vertex_xy[vertex_first], vertex_xy[(vertex_first + 1) & 1023], vertex_xy[(vertex_first + 2) & 1023]); // 4 rgba, 4 texture units 2 uv
- vertex_first = (vertex_first + 3) & 1023;
- vertex_count = vertex_count + 3;
- wait();
- }
- }
- else if (primitive_type == NV2A_BEGIN_END::TRIANGLE_STRIP) {
- int required, c, count;
-
- required = 1;
- if (vertex_count == 0)
- required = 3;
- if ((countlen * mult + indexesleft_count) >= required) {
- // if software sends the vertices 0 1 2 3 4 5 6
- // hardware will draw triangles made by (0,1,2) (1,3,2) (2,3,4) (3,5,4) (4,5,6)
- if (vertex_count == 0) {
- if (mult == 1)
- c = read_vertices_0x1808(space, vertex_software, address, 2);
- else
- c = read_vertices_0x1800(space, vertex_software, address, 2);
- convert_vertices_poly(vertex_software, vertex_xy, 2);
- address = address + c * 4;
- countlen = countlen - c;
- vertex_first = 2;
- vertex_count = 2;
- }
- count = countlen * mult + indexesleft_count;
- for (n = 0; n < count; n++) {
- if (mult == 1)
- c = read_vertices_0x1808(space, vertex_software + vertex_first, address, 1);
- else
- c = read_vertices_0x1800(space, vertex_software + vertex_first, address, 1);
- address = address + c * 4;
- countlen = countlen - c;
- convert_vertices_poly(vertex_software + vertex_first, vertex_xy + vertex_first, 1);
- if ((vertex_count & 1) == 0)
- render_triangle_culling(limits_rendertarget, renderspans, 4 + 4 * 2, vertex_xy[(vertex_first - 2) & 1023], vertex_xy[(vertex_first - 1) & 1023], vertex_xy[vertex_first]);
- else
- render_triangle_culling(limits_rendertarget, renderspans, 4 + 4 * 2, vertex_xy[(vertex_first - 2) & 1023], vertex_xy[vertex_first], vertex_xy[(vertex_first - 1) & 1023]);
- vertex_first = (vertex_first + 1) & 1023;
- vertex_count = vertex_count + 1;
- wait();
- }
- }
- }
- else {
- machine().logerror("Unsupported primitive %d for method 0x1800/8\n", int(primitive_type));
- countlen = 0;
+ while (1) {
+ int c;
+
+ if ((countlen * mult + indexesleft_count) < 4)
+ break;
+ if (mult == 1)
+ c = read_vertices_0x1808(space, vertex_software + vertex_first, address, 1);
+ else
+ c = read_vertices_0x1800(space, vertex_software + vertex_first, address, 1);
+ address = address + c * 4;
+ countlen = countlen - c;
+ assemble_primitive(vertex_software + vertex_first, 1, render_spans_callback);
+ vertex_first = (vertex_first + 4) & 1023;
}
while (countlen > 0) {
+ int n;
+
data = space.read_dword(address);
n = indexesleft_first + indexesleft_count;
if (mult == 2) {
@@ -2863,173 +2890,106 @@ int nv2a_renderer::geforce_exec_method(address_space & space, UINT32 chanel, UIN
address += 4;
countlen--;
}
- wait();
}
if (maddress == 0x1818) {
- int n;
- render_delegate renderspans;
-
- if (((channel[chanel][subchannel].object.method[0x1e60 / 4] & 7) > 0) && (combiner.used != 0)) {
- renderspans = render_delegate(FUNC(nv2a_renderer::render_register_combiners), this);
- }
- else if (texture[0].enabled) {
- renderspans = render_delegate(FUNC(nv2a_renderer::render_texture_simple), this);
- }
- else
- renderspans = render_delegate(FUNC(nv2a_renderer::render_color), this);
// vertices are taken from the next words, not from a vertex buffer
// first send primitive type with 17fc
// then countlen number of dwords with 1818
// end with 17fc primitive type 0
// at 1760 16 words specify the vertex format:for each possible vertex attribute the number of components (0=not present) and type of each
- if (primitive_type == NV2A_BEGIN_END::QUADS) {
- while (countlen > 0) {
- int c;
-
- c = read_vertices_0x1818(space, vertex_software + vertex_first, address, 4);
- convert_vertices_poly(vertex_software + vertex_first, vertex_xy + vertex_first, 4);
- countlen = countlen - c;
- if (countlen < 0) {
- machine().logerror("Method 0x1818 missing %d words to draw a complete primitive\n", -countlen);
- countlen = 0;
- break;
- }
- address = address + c * 4;
- //render_polygon<4>(limits_rendertarget, renderspans, 4 + 4 * 2, vertex_xy); // 4 rgba, 4 texture units 2 uv
- render_triangle_culling(limits_rendertarget, renderspans, 4 + 4 * 2, vertex_xy[vertex_first], vertex_xy[vertex_first + 1], vertex_xy[vertex_first + 2]);
- render_triangle_culling(limits_rendertarget, renderspans, 4 + 4 * 2, vertex_xy[vertex_first], vertex_xy[vertex_first + 2], vertex_xy[vertex_first + 3]);
- vertex_first = (vertex_first + 4) & 1023;
- vertex_count = vertex_count + 4;
- wait();
- }
- }
- else if (primitive_type == NV2A_BEGIN_END::QUAD_STRIP) {
+ while (countlen > 0) {
int c;
- c = read_vertices_0x1818(space, vertex_software, address, 2);
- convert_vertices_poly(vertex_software, vertex_xy, 2);
+ c = read_vertices_0x1818(space, vertex_software + vertex_first, address, 1);
countlen = countlen - c;
if (countlen < 0) {
- machine().logerror("Method 0x1818 missing %d words to draw a complete primitive\n", -countlen);
+ machine().logerror("Method 0x1818 missing %d words\n", -countlen);
countlen = 0;
- return 0;
+ break;
}
address = address + c * 4;
- for (n = 0; countlen > 0; n += 2) {
- c = read_vertices_0x1818(space, vertex_software + ((n + 2) & 3), address + ((n + 2) & 3), 2);
- convert_vertices_poly(vertex_software + ((n + 2) & 3), vertex_xy + ((n + 2) & 3), 2);
- countlen = countlen - c;
- if (countlen < 0) {
- machine().logerror("Method 0x1818 missing %d words to draw a complete primitive\n", -countlen);
- countlen = 0;
- return 0;
- }
- address = address + c * 4;
- render_triangle_culling(limits_rendertarget, renderspans, 4 + 4 * 2, vertex_xy[n & 3], vertex_xy[(n + 1) & 3], vertex_xy[(n + 2) & 3]);
- render_triangle_culling(limits_rendertarget, renderspans, 4 + 4 * 2, vertex_xy[(n + 2) & 3], vertex_xy[(n + 1) & 3], vertex_xy[(n + 3) & 3]);
- wait();
- }
+ assemble_primitive(vertex_software + vertex_first, 1, render_spans_callback);
+ vertex_first = (vertex_first + 4) & 1023;
}
- else if (primitive_type == NV2A_BEGIN_END::TRIANGLE_FAN) {
- int c;
+ }
+ if ((maddress >= 0x1880) && (maddress < 0x1900))
+ {
+ int v = maddress - 0x1880; // 16 couples,2 float per couple,16*2*4=128
+ int attr = v >> 3;
+ int comp = (v >> 2) & 1;
- if (vertex_count == 0) {
- c = read_vertices_0x1818(space, vertex_software + 1024, address, 1);
- convert_vertices_poly(vertex_software + 1024, vertex_xy + 1024, 1);
- countlen = countlen - c;
- address = address + c * 4;
- c = read_vertices_0x1818(space, vertex_software, address, 1);
- convert_vertices_poly(vertex_software, vertex_xy, 1);
- countlen = countlen - c;
- if (countlen < 0) {
- machine().logerror("Method 0x1818 missing %d words to draw a complete primitive\n", -countlen);
- countlen = 0;
- return 0;
- }
- address = address + c * 4;
- vertex_first = 1;
- vertex_count = 2;
- }
- // if software sends the vertices 0 1 2 3 4 5 6
- // hardware will draw triangles made by (0,1,2) (0,2,3) (0,3,4) (0,4,5) (0,5,6)
- while (countlen > 0) {
- c = read_vertices_0x1818(space, vertex_software + vertex_first, address, 1);
- countlen = countlen - c;
- if (countlen < 0) {
- machine().logerror("Method 0x1818 missing %d words to draw a complete primitive\n", -countlen);
- countlen = 0;
- break;
- }
- address = address + c * 4;
- convert_vertices_poly(vertex_software + vertex_first, vertex_xy + vertex_first, 1);
- render_triangle_culling(limits_rendertarget, renderspans, 4 + 4 * 2, vertex_xy[1024], vertex_xy[(vertex_first - 1) & 1023], vertex_xy[vertex_first]);
- vertex_first = (vertex_first + 1) & 1023;
- vertex_count = vertex_count + 1;
- wait();
- }
- }
- else if (primitive_type == NV2A_BEGIN_END::TRIANGLES) {
- while (countlen > 0) {
- int c;
-
- c = read_vertices_0x1818(space, vertex_software + vertex_first, address, 3);
- convert_vertices_poly(vertex_software + vertex_first, vertex_xy + vertex_first, 3);
- countlen = countlen - c;
- if (countlen < 0) {
- machine().logerror("Method 0x1818 missing %d words to draw a complete primitive\n", -countlen);
- countlen = 0;
- break;
- }
- address = address + c * 4;
- render_triangle_culling(limits_rendertarget, renderspans, 4 + 4 * 2, vertex_xy[vertex_first], vertex_xy[(vertex_first + 1) & 1023], vertex_xy[(vertex_first + 2) & 1023]); // 4 rgba, 4 texture units 2 uv
- vertex_first = (vertex_first + 3) & 1023;
- vertex_count = vertex_count + 3;
- wait();
- }
+ persistvertexattr.attribute[attr].iv[comp] = data;
+ if (comp == 1)
+ {
+ persistvertexattr.attribute[attr].fv[2] = 0;
+ persistvertexattr.attribute[attr].fv[3] = 1;
+ if (attr == 0)
+ assemble_primitive(&persistvertexattr, 1, render_spans_callback);
}
- else if (primitive_type == NV2A_BEGIN_END::TRIANGLE_STRIP) {
- int c;
+ }
+ if ((maddress >= 0x1900) && (maddress < 0x1940))
+ {
+ int v = maddress - 0x1900; // 16 dwords,2 values per dword
+ int attr = v >> 2;
+ UINT16 d1 = data & 0xffff;
+ UINT16 d2 = data >> 16;
+
+ persistvertexattr.attribute[attr].fv[0] = (float)((INT16)d1);
+ persistvertexattr.attribute[attr].fv[1] = (float)((INT16)d2);
+ persistvertexattr.attribute[attr].fv[2] = 0;
+ persistvertexattr.attribute[attr].fv[3] = 1;
+ if (attr == 0)
+ assemble_primitive(&persistvertexattr, 1, render_spans_callback);
+ }
+ if ((maddress >= 0x1940) && (maddress < 0x1980))
+ {
+ int v = maddress - 0x1940; // 16 dwords,4 values per dword
+ int attr = v >> 2;
+ UINT8 d1 = data & 255;
+ UINT8 d2 = (data >> 8) & 255;
+ UINT8 d3 = (data >> 16) & 255;
+ UINT8 d4 = data >> 24;
+
+ persistvertexattr.attribute[attr].fv[0] = (float)d1;
+ persistvertexattr.attribute[attr].fv[1] = (float)d2;
+ persistvertexattr.attribute[attr].fv[2] = (float)d3;
+ persistvertexattr.attribute[attr].fv[3] = (float)d4;
+ if (attr == 0)
+ assemble_primitive(&persistvertexattr, 1, render_spans_callback);
+ }
+ if ((maddress >= 0x1980) && (maddress < 0x1a00))
+ {
+ int v = maddress - 0x1980; // 16 couples,4 values per couple
+ int attr = v >> 3;
+ int comp = (v >> 1) & 2;
+ UINT16 d1 = data & 0xffff;
+ UINT16 d2 = data >> 16;
+
+ persistvertexattr.attribute[attr].fv[comp] = (float)((INT16)d1);
+ persistvertexattr.attribute[attr].fv[comp+1] = (float)((INT16)d2);
+ if (comp == 2)
+ if (attr == 0)
+ assemble_primitive(&persistvertexattr, 1, render_spans_callback);
+ }
+ if ((maddress >= 0x1a00) && (maddress < 0x1b00))
+ {
+ int v = maddress - 0x1a00; // 16 groups,4 float per group
+ int attr = v >> 4;
+ int comp = (v >> 2) & 3;
- // if software sends the vertices 0 1 2 3 4 5 6
- // hardware will draw triangles made by (0,1,2) (1,3,2) (2,3,4) (3,5,4) (4,5,6)
- if (vertex_count == 0) {
- c = read_vertices_0x1818(space, vertex_software, address, 2);
- convert_vertices_poly(vertex_software, vertex_xy, 2);
- countlen = countlen - c;
- if (countlen < 0) {
- machine().logerror("Method 0x1818 missing %d words to draw a complete primitive\n", -countlen);
- countlen = 0;
- return 0;
- }
- address = address + c * 4;
- vertex_first = 2;
- vertex_count = 2;
- }
- while (countlen > 0) {
- c = read_vertices_0x1818(space, vertex_software + vertex_first, address, 1);
- convert_vertices_poly(vertex_software + vertex_first, vertex_xy + vertex_first, 1);
- countlen = countlen - c;
- if (countlen < 0) {
- machine().logerror("Method 0x1818 missing %d words to draw a complete primitive\n", -countlen);
- countlen = 0;
- break;
- }
- address = address + c * 4;
- if ((vertex_count & 1) == 0)
- render_triangle_culling(limits_rendertarget, renderspans, 4 + 4 * 2, vertex_xy[(vertex_first - 2) & 1023], vertex_xy[(vertex_first - 1) & 1023], vertex_xy[vertex_first]);
- else
- render_triangle_culling(limits_rendertarget, renderspans, 4 + 4 * 2, vertex_xy[(vertex_first - 2) & 1023], vertex_xy[vertex_first], vertex_xy[(vertex_first - 1) & 1023]);
- vertex_first = (vertex_first + 1) & 1023;
- vertex_count = vertex_count + 1;
- wait();
- }
- }
- else if (primitive_type == NV2A_BEGIN_END::LINE_LOOP) {
- }
- else {
- machine().logerror("Unsupported primitive %d for method 0x1818\n", int(primitive_type));
- countlen = 0;
- }
+ persistvertexattr.attribute[attr].iv[comp] = data;
+ if (comp == 3)
+ if (attr == 0)
+ assemble_primitive(&persistvertexattr, 1, render_spans_callback);
+ }
+ if ((maddress >= 0x1518) && (maddress < 0x1528))
+ {
+ int v = maddress - 0x1518;
+ int comp = v >> 2;
+
+ persistvertexattr.attribute[(int)NV2A_VERTEX_ATTR::POS].iv[comp] = data;
+ if (comp == 3)
+ assemble_primitive(&persistvertexattr, 1, render_spans_callback);
}
if ((maddress >= 0x1720) && (maddress < 0x1760)) {
int bit = method - 0x1720 / 4;
@@ -3076,7 +3036,7 @@ int nv2a_renderer::geforce_exec_method(address_space & space, UINT32 chanel, UIN
}
countlen--;
}
- if ((maddress == 0x1d6c) || (maddress == 0x1d70) || (maddress == 0x1a4))
+ if ((maddress == 0x1d6c) || (maddress == 0x1a4))
countlen--;
if (maddress == 0x0308) {
backface_culling_enabled = data != 0 ? true : false;
@@ -3103,10 +3063,14 @@ int nv2a_renderer::geforce_exec_method(address_space & space, UINT32 chanel, UIN
geforce_read_dma_object(dmahand, dmaoff, smasiz);
base = dmaoff;
space.write_dword(base + offset, data);
+ // software expects to find the parameter of this method at pgraph offset b10
+ pgraph[0xb10 / 4] = data << 2;
countlen--;
}
if (maddress == 0x1d7c) {
antialias_control = data;
+ compute_supersample_factors(supersample_factor_x, supersample_factor_y);
+ compute_limits_rendertarget(chanel, subchannel);
countlen--;
}
if (maddress == 0x1d98) {
@@ -3132,19 +3096,27 @@ int nv2a_renderer::geforce_exec_method(address_space & space, UINT32 chanel, UIN
clear_depth_buffer(data & 3, channel[chanel][subchannel].object.method[0x1d8c / 4]);
countlen--;
}
- if (maddress == 0x0200) {
- int x, w;
+ if ((maddress >= 0x02c0) && (maddress < 0x2e0)) {
+ int x, w, i;
+ i = (maddress - 0x2c0) / 4;
x = data & 0xffff;
w = (data >> 16) & 0xffff;
- limits_rendertarget.setx(x,x+w-1);
+ clippingwindows[i].setx(x, x + w - 1);
}
- if (maddress == 0x0204) {
- int y, h;
+ if ((maddress >= 0x02e0) && (maddress < 0x300)) {
+ int y, h, i;
+ i = (maddress - 0x2e0) / 4;
y = data & 0xffff;
h = (data >> 16) & 0xffff;
- limits_rendertarget.sety(y,y+h-1);
+ clippingwindows[i].sety(y, y + h - 1);
+ }
+ if (maddress == 0x0200) {
+ compute_limits_rendertarget(chanel, subchannel);
+ }
+ if (maddress == 0x0204) {
+ compute_limits_rendertarget(chanel, subchannel);
}
if (maddress == 0x0208) {
log2height_rendertarget = (data >> 24) & 255;
@@ -3153,6 +3125,8 @@ int nv2a_renderer::geforce_exec_method(address_space & space, UINT32 chanel, UIN
type_rendertarget = (NV2A_RT_TYPE)((data >> 8) & 15);
depthformat_rendertarget = (NV2A_RT_DEPTH_FORMAT)((data >> 4) & 15);
colorformat_rendertarget = (NV2A_COLOR_FORMAT)((data >> 0) & 15);
+ compute_supersample_factors(supersample_factor_x, supersample_factor_y);
+ compute_limits_rendertarget(chanel, subchannel);
switch (colorformat_rendertarget) {
case NV2A_COLOR_FORMAT::R5G6B5:
bytespixel_rendertarget = 2;
@@ -3343,15 +3317,15 @@ int nv2a_renderer::geforce_exec_method(address_space & space, UINT32 chanel, UIN
}*/
}
if (maddress == 0x1b04) {
- //int dma0,dma1,cubic,noborder,dims,mipmap;
int basesizeu, basesizev, basesizew, format;
-
- //dma0=(data >> 0) & 1;
- //dma1=(data >> 1) & 1;
- //cubic=(data >> 2) & 1;
- //noborder=(data >> 3) & 1;
- //dims=(data >> 4) & 15;
- //mipmap=(data >> 19) & 1;
+ bool rectangle;
+
+ texture[unit].dma0 = (data >> 0) & 1;
+ texture[unit].dma1 = (data >> 1) & 1;
+ texture[unit].cubic = (data >> 2) & 1;
+ texture[unit].noborder = (data >> 3) & 1;
+ texture[unit].dims = (data >> 4) & 15;
+ texture[unit].mipmap = (data >> 19) & 1;
format = (data >> 8) & 255;
basesizeu = (data >> 20) & 15;
basesizev = (data >> 24) & 15;
@@ -3361,6 +3335,25 @@ int nv2a_renderer::geforce_exec_method(address_space & space, UINT32 chanel, UIN
texture[unit].sizew = 1 << basesizew;
texture[unit].dilate = dilatechose[(basesizeu << 4) + basesizev];
texture[unit].format = (NV2A_TEX_FORMAT)format;
+ switch (texture[unit].format)
+ {
+ case NV2A_TEX_FORMAT::A1R5G5B5_RECT:
+ case NV2A_TEX_FORMAT::R5G6B5_RECT:
+ case NV2A_TEX_FORMAT::A8R8G8B8_RECT:
+ case NV2A_TEX_FORMAT::DSDT8_RECT:
+ case NV2A_TEX_FORMAT::A4R4G4B4_RECT:
+ case NV2A_TEX_FORMAT::R8G8B8_RECT:
+ case NV2A_TEX_FORMAT::A8L8_RECT:
+ case NV2A_TEX_FORMAT::Z24_RECT:
+ case NV2A_TEX_FORMAT::Z16_RECT:
+ case NV2A_TEX_FORMAT::HILO16_RECT:
+ case NV2A_TEX_FORMAT::SIGNED_HILO8_RECT:
+ rectangle = true;
+ break;
+ default:
+ rectangle = false;
+ }
+ texture[unit].rectangle = rectangle;
if (debug_grab_texttype == format) {
FILE *f;
int written;
@@ -3376,16 +3369,31 @@ int nv2a_renderer::geforce_exec_method(address_space & space, UINT32 chanel, UIN
machine().logerror("Unable to save texture to specified file\n");
}
}
+ /*if (maddress == 0x1b08) {
+ (data >> 0) & 15;
+ (data >> 4) & 15;
+ (data >> 8) & 15;
+ (data >> 12) & 15;
+ (data >> 16) & 15;
+ (data >> 20) & 15;
+ (data >> 24) & 255;
+ }*/
if (maddress == 0x1b0c) {
+ texture[unit].colorkey = (data >> 0) & 3;
+ texture[unit].imagefield = (data >> 3) & 1;
+ texture[unit].aniso = (data >> 4) & 3;
+ texture[unit].mipmapmaxlod = (data >> 6) & 0xfff;
+ texture[unit].mipmapminlod = (data >> 18) & 0xfff;
// enable texture
- int enable;
-
- enable = (data >> 30) & 1;
- texture[unit].enabled = enable;
+ texture[unit].enabled = (data >> 30) & 3;
}
if (maddress == 0x1b10) {
texture[unit].rectangle_pitch = data >> 16;
}
+ if (maddress == 0x1b1c) {
+ texture[unit].rectheight = data & 0xffff;
+ texture[unit].rectwidth = data >> 16;
+ }
countlen--;
}
// modelview matrix
@@ -4292,96 +4300,97 @@ TIMER_CALLBACK_MEMBER(nv2a_renderer::puller_timer_work)
address_space *space = puller_space;
UINT32 subch;
- chanel = puller_channel;
- dmaput = &channel[chanel][0].regs[0x40 / 4];
- dmaget = &channel[chanel][0].regs[0x44 / 4];
- while (*dmaget != *dmaput) {
- cmd = space->read_dword(*dmaget);
- *dmaget += 4;
- cmdtype = geforce_commandkind(cmd);
- switch (cmdtype)
- {
- case 6: // jump
-#ifdef LOG_NV2A
- machine().logerror("jump dmaget %08X", *dmaget);
-#endif
- *dmaget = cmd & 0xfffffffc;
-#ifdef LOG_NV2A
- machine().logerror(" -> %08X\n\r", *dmaget);
-#endif
- break;
- case 0: // increasing method
- method = (cmd >> 2) & 2047; // method*4 is address // if method >= 0x40 send it to assigned object
- subch = (cmd >> 13) & 7;
- count = (cmd >> 18) & 2047;
- if ((method == 0) && (count == 1)) {
- geforce_assign_object(*space, chanel, subch, *dmaget);
- *dmaget += 4;
- }
- else {
-#ifdef LOG_NV2A
- machine().logerror(" subch. %d method %04x offset %04x count %d\n", subch, method, method * 4, count);
-#endif
- ret = 0;
- while (count > 0) {
- countlen = 1;
- ret=geforce_exec_method(*space, chanel, subch, method, *dmaget, countlen);
- count--;
- method++;
+ for (chanel = 0; chanel < 32; chanel++) {
+ dmaput = &channel[chanel][0].regs[0x40 / 4];
+ dmaget = &channel[chanel][0].regs[0x44 / 4];
+ while (*dmaget != *dmaput) {
+ cmd = space->read_dword(*dmaget);
+ *dmaget += 4;
+ cmdtype = geforce_commandkind(cmd);
+ switch (cmdtype)
+ {
+ case 6: // jump
+ #ifdef LOG_NV2A
+ machine().logerror("jump dmaget %08X", *dmaget);
+ #endif
+ *dmaget = cmd & 0xfffffffc;
+ #ifdef LOG_NV2A
+ machine().logerror(" -> %08X\n\r", *dmaget);
+ #endif
+ break;
+ case 0: // increasing method
+ method = (cmd >> 2) & 2047; // method*4 is address // if method >= 0x40 send it to assigned object
+ subch = (cmd >> 13) & 7;
+ count = (cmd >> 18) & 2047;
+ if ((method == 0) && (count == 1)) {
+ geforce_assign_object(*space, chanel, subch, *dmaget);
*dmaget += 4;
- if (ret != 0)
- break;
}
- if (ret != 0) {
- puller_timer->enable(false);
- puller_waiting = ret;
- return;
+ else {
+ #ifdef LOG_NV2A
+ machine().logerror(" subch. %d method %04x offset %04x count %d\n", subch, method, method * 4, count);
+ #endif
+ ret = 0;
+ while (count > 0) {
+ countlen = 1;
+ ret=geforce_exec_method(*space, chanel, subch, method, *dmaget, countlen);
+ count--;
+ method++;
+ *dmaget += 4;
+ if (ret != 0)
+ break;
+ }
+ if (ret != 0) {
+ puller_timer->enable(false);
+ puller_waiting = ret;
+ return;
+ }
}
- }
- break;
- case 5: // non-increasing method
- method = (cmd >> 2) & 2047;
- subch = (cmd >> 13) & 7;
- count = (cmd >> 18) & 2047;
- if ((method == 0) && (count == 1)) {
- geforce_assign_object(*space, chanel, subch, *dmaget);
- *dmaget += 4;
- }
- else {
-#ifdef LOG_NV2A
- machine().logerror(" subch. %d method %04x offset %04x count %d\n", subch, method, method * 4, count);
-#endif
- while (count > 0) {
- countlen = count;
- ret=geforce_exec_method(*space, chanel, subch, method, *dmaget, countlen);
- *dmaget += 4 * (count - countlen);
- count = countlen;
+ break;
+ case 5: // non-increasing method
+ method = (cmd >> 2) & 2047;
+ subch = (cmd >> 13) & 7;
+ count = (cmd >> 18) & 2047;
+ if ((method == 0) && (count == 1)) {
+ geforce_assign_object(*space, chanel, subch, *dmaget);
+ *dmaget += 4;
}
- }
- break;
- case 3: // long non-increasing method
- method = (cmd >> 2) & 2047;
- subch = (cmd >> 13) & 7;
- count = space->read_dword(*dmaget);
- *dmaget += 4;
- if ((method == 0) && (count == 1)) {
- geforce_assign_object(*space, chanel, subch, *dmaget);
+ else {
+ #ifdef LOG_NV2A
+ machine().logerror(" subch. %d method %04x offset %04x count %d\n", subch, method, method * 4, count);
+ #endif
+ while (count > 0) {
+ countlen = count;
+ ret=geforce_exec_method(*space, chanel, subch, method, *dmaget, countlen);
+ *dmaget += 4 * (count - countlen);
+ count = countlen;
+ }
+ }
+ break;
+ case 3: // long non-increasing method
+ method = (cmd >> 2) & 2047;
+ subch = (cmd >> 13) & 7;
+ count = space->read_dword(*dmaget);
*dmaget += 4;
- }
- else {
-#ifdef LOG_NV2A
- machine().logerror(" subch. %d method %04x offset %04x count %d\n", subch, method, method * 4, count);
-#endif
- while (count > 0) {
- countlen = count;
- ret=geforce_exec_method(*space, chanel, subch, method, *dmaget, countlen);
- *dmaget += 4 * (count - countlen);
- count = countlen;
+ if ((method == 0) && (count == 1)) {
+ geforce_assign_object(*space, chanel, subch, *dmaget);
+ *dmaget += 4;
+ }
+ else {
+ #ifdef LOG_NV2A
+ machine().logerror(" subch. %d method %04x offset %04x count %d\n", subch, method, method * 4, count);
+ #endif
+ while (count > 0) {
+ countlen = count;
+ ret=geforce_exec_method(*space, chanel, subch, method, *dmaget, countlen);
+ *dmaget += 4 * (count - countlen);
+ count = countlen;
+ }
}
+ break;
+ default:
+ machine().logerror(" unimplemented command %08X\n", cmd);
}
- break;
- default:
- machine().logerror(" unimplemented command %08X\n", cmd);
}
}
}
@@ -4545,7 +4554,6 @@ WRITE32_MEMBER(nv2a_renderer::geforce_w)
}
if (*dmaget != *dmaput) {
if (puller_waiting == 0) {
- puller_channel = chanel;
puller_space = &space;
puller_timer->enable();
puller_timer->adjust(attotime::zero);
@@ -4570,6 +4578,7 @@ void nv2a_renderer::savestate_items()
void nv2a_renderer::start(address_space *cpu_space)
{
basemempointer = (UINT8 *)cpu_space->get_read_ptr(0);
+ topmempointer = basemempointer + 512 * 1024 * 1024 - 1;
puller_timer = machine().scheduler().timer_alloc(timer_expired_delegate(FUNC(nv2a_renderer::puller_timer_work), this), (void *)"NV2A Puller Timer");
puller_timer->enable(false);
}