File: gpu_old.c

package info (click to toggle)
retroarch 1.22.2%2Bdfsg-2
links: PTS, VCS
area: main
in suites: forky, sid
size: 80,716 kB
sloc: ansic: 1,275,794; cpp: 115,470; objc: 9,973; asm: 6,624; python: 4,071; makefile: 2,867; sh: 2,828; xml: 1,408; perl: 393; java: 298; javascript: 196
file content (348 lines) | stat: -rw-r--r-- 11,166 bytes
/* originally from from https://github.com/smealum/ctrulib */

/*
  gpu-old.c _ Legacy GPU commands.
*/

#include <stdlib.h>
#include <string.h>
#include <3ds/types.h>
#include <3ds/gpu/gpu.h>
#include <3ds/gpu/gx.h>
#include <3ds/gpu/shbin.h>

#define DEPRECATED
#include "gpu_old.h"
#undef DEPRECATED

void GPU_Init(Handle *gsphandle)
{
	gpuCmdBuf       = NULL;
	gpuCmdBufSize   = 0;
	gpuCmdBufOffset = 0;
}

void GPU_Reset(u32* gxbuf, u32* gpuBuf, u32 gpuBufSize)
{
	GPUCMD_SetBuffer(gpuBuf, gpuBufSize, 0);
}

void GPU_SetFloatUniform(GPU_SHADER_TYPE type,
      u32 startreg, u32* data, u32 numreg)
{
   int regOffset = 0x0;;
   if (!data)
      return;

   if (type == GPU_GEOMETRY_SHADER)
      regOffset = (-0x30);

   GPUCMD_AddWrite(GPUREG_VSH_FLOATUNIFORM_CONFIG+regOffset,
         0x80000000 | startreg);
   GPUCMD_AddWrites(GPUREG_VSH_FLOATUNIFORM_DATA+regOffset, data, numreg*4);
}

/* takes PAs as arguments */
void GPU_SetViewport(u32* depthBuffer, u32* colorBuffer,
      u32 x, u32 y, u32 w, u32 h)
{
   u32 f116e;
	u32 param[0x4];
	float fw   = (float)w;
	float fh   = (float)h;

	GPUCMD_AddWrite(GPUREG_FRAMEBUFFER_FLUSH, 0x00000001);
	GPUCMD_AddWrite(GPUREG_FRAMEBUFFER_INVALIDATE, 0x00000001);

	f116e      = 0x01000000 | (((h-1) & 0xFFF) << 12) | (w & 0xFFF);

	param[0x0] = ((u32)depthBuffer) >> 3;
	param[0x1] = ((u32)colorBuffer) >> 3;
	param[0x2] = f116e;
	GPUCMD_AddIncrementalWrites(GPUREG_DEPTHBUFFER_LOC, param, 0x00000003);

	GPUCMD_AddWrite(GPUREG_RENDERBUF_DIM, f116e);
   /* depth buffer format */
	GPUCMD_AddWrite(GPUREG_DEPTHBUFFER_FORMAT, 0x00000003);
   /* color buffer format */
	GPUCMD_AddWrite(GPUREG_COLORBUFFER_FORMAT, 0x00000002);
	GPUCMD_AddWrite(GPUREG_FRAMEBUFFER_BLOCK32, 0x00000000); /* ? */

	param[0x0] = f32tof24(fw/2);
	param[0x1] = f32tof31(2.0f / fw) << 1;
	param[0x2] = f32tof24(fh/2);
	param[0x3] = f32tof31(2.0f / fh) << 1;
	GPUCMD_AddIncrementalWrites(GPUREG_VIEWPORT_WIDTH, param, 0x00000004);

	GPUCMD_AddWrite(GPUREG_VIEWPORT_XY, (y << 16)|(x & 0xFFFF));

	param[0x0] = 0x00000000;
	param[0x1] = 0x00000000;
	param[0x2] = ((h-1) << 16)|((w-1) & 0xFFFF);
	GPUCMD_AddIncrementalWrites(GPUREG_SCISSORTEST_MODE, param, 0x00000003);

	/* enable depth buffer */
	param[0x0] = 0x0000000F;
	param[0x1] = 0x0000000F;
	param[0x2] = 0x00000002;
	param[0x3] = 0x00000002;
	GPUCMD_AddIncrementalWrites(GPUREG_COLORBUFFER_READ, param, 0x00000004);
}

void GPU_SetScissorTest(GPU_SCISSORMODE mode, u32 left, u32 bottom, u32 right, u32 top)
{
	u32 param[3];

	param[0x0] = mode;
	param[0x1] = (bottom << 16)  | (left & 0xFFFF);
	param[0x2] = ((top-1) << 16) | ((right-1) & 0xFFFF);
	GPUCMD_AddIncrementalWrites(GPUREG_SCISSORTEST_MODE, param, 0x00000003);
}

void GPU_DepthMap(float zScale, float zOffset)
{
	GPUCMD_AddWrite(GPUREG_DEPTHMAP_ENABLE, 0x00000001);
	GPUCMD_AddWrite(GPUREG_DEPTHMAP_SCALE, f32tof24(zScale));
	GPUCMD_AddWrite(GPUREG_DEPTHMAP_OFFSET, f32tof24(zOffset));
}

void GPU_SetAlphaTest(bool enable, GPU_TESTFUNC function, u8 ref)
{
	GPUCMD_AddWrite(GPUREG_FRAGOP_ALPHA_TEST,
         (enable&1)|((function&7) << 4)|(ref << 8));
}

void GPU_SetStencilTest(bool enable, GPU_TESTFUNC function, u8 ref, u8 input_mask, u8 write_mask)
{
	GPUCMD_AddWrite(GPUREG_STENCIL_TEST,
         (enable&1)|((function&7) << 4)|(write_mask << 8)|(ref << 16)|(input_mask << 24));
}

void GPU_SetStencilOp(GPU_STENCILOP sfail, GPU_STENCILOP dfail, GPU_STENCILOP pass)
{
	GPUCMD_AddWrite(GPUREG_STENCIL_OP, sfail | (dfail << 4) | (pass << 8));
}

void GPU_SetDepthTestAndWriteMask(bool enable, GPU_TESTFUNC function, GPU_WRITEMASK writemask)
{
	GPUCMD_AddWrite(GPUREG_DEPTH_COLOR_MASK, (enable&1)|((function&7) << 4)|(writemask << 8));
}

void GPU_SetAlphaBlending(GPU_BLENDEQUATION colorEquation, GPU_BLENDEQUATION alphaEquation,
	GPU_BLENDFACTOR colorSrc, GPU_BLENDFACTOR colorDst,
	GPU_BLENDFACTOR alphaSrc, GPU_BLENDFACTOR alphaDst)
{
	GPUCMD_AddWrite(GPUREG_BLEND_FUNC, colorEquation | (alphaEquation << 8) | (colorSrc << 16) | (colorDst << 20) | (alphaSrc << 24) | (alphaDst << 28));
	GPUCMD_AddMaskedWrite(GPUREG_COLOR_OPERATION, 0x2, 0x00000100);
}

void GPU_SetColorLogicOp(GPU_LOGICOP op)
{
	GPUCMD_AddWrite(GPUREG_LOGIC_OP, op);
	GPUCMD_AddMaskedWrite(GPUREG_COLOR_OPERATION, 0x2, 0x00000000);
}

void GPU_SetBlendingColor(u8 r, u8 g, u8 b, u8 a)
{
	GPUCMD_AddWrite(GPUREG_BLEND_COLOR, r | (g << 8) | (b << 16) | (a << 24));
}

void GPU_SetTextureEnable(GPU_TEXUNIT units)
{
	GPUCMD_AddMaskedWrite(GPUREG_SH_OUTATTR_CLOCK, 0x2, units << 8); /* enables texcoord outputs */
	GPUCMD_AddWrite(GPUREG_TEXUNIT_CONFIG, 0x00011000|units); /* enables texture units */
}

void GPU_SetTexture(GPU_TEXUNIT unit, u32* data, u16 width, u16 height, u32 param, GPU_TEXCOLOR colorType)
{
	switch (unit)
   {
      case GPU_TEXUNIT0:
         GPUCMD_AddWrite(GPUREG_TEXUNIT0_TYPE, colorType);
         GPUCMD_AddWrite(GPUREG_TEXUNIT0_ADDR1, ((u32)data) >> 3);
         GPUCMD_AddWrite(GPUREG_TEXUNIT0_DIM, (width << 16)|height);
         GPUCMD_AddWrite(GPUREG_TEXUNIT0_PARAM, param);
         break;

      case GPU_TEXUNIT1:
         GPUCMD_AddWrite(GPUREG_TEXUNIT1_TYPE, colorType);
         GPUCMD_AddWrite(GPUREG_TEXUNIT1_ADDR, ((u32)data) >> 3);
         GPUCMD_AddWrite(GPUREG_TEXUNIT1_DIM, (width << 16)|height);
         GPUCMD_AddWrite(GPUREG_TEXUNIT1_PARAM, param);
         break;

      case GPU_TEXUNIT2:
         GPUCMD_AddWrite(GPUREG_TEXUNIT2_TYPE, colorType);
         GPUCMD_AddWrite(GPUREG_TEXUNIT2_ADDR, ((u32)data) >> 3);
         GPUCMD_AddWrite(GPUREG_TEXUNIT2_DIM, (width << 16)|height);
         GPUCMD_AddWrite(GPUREG_TEXUNIT2_PARAM, param);
         break;
   }
}

void GPU_SetTextureBorderColor(GPU_TEXUNIT unit,u32 borderColor)
{
	switch (unit)
   {
      case GPU_TEXUNIT0:
         GPUCMD_AddWrite(GPUREG_TEXUNIT0_BORDER_COLOR, borderColor);
         break;

      case GPU_TEXUNIT1:
         GPUCMD_AddWrite(GPUREG_TEXUNIT1_BORDER_COLOR, borderColor);
         break;

      case GPU_TEXUNIT2:
         GPUCMD_AddWrite(GPUREG_TEXUNIT2_BORDER_COLOR, borderColor);
         break;
   }
}

const u8 GPU_FORMATSIZE[4]={1,1,2,4};

void GPU_SetAttributeBuffers(
      u8 totalAttributes,
      u32* baseAddress,
      u64 attributeFormats,
      u16 attributeMask,
      u64 attributePermutation,
      u8 numBuffers,
      u32 bufferOffsets[],
      u64 bufferPermutations[],
      u8 bufferNumAttributes[])
{
	int i, j;
	u32 param[0x28];
	u8 sizeTable[0xC];

	memset(param, 0x00, 0x28*4);

	param[0x0] = ((u32)baseAddress) >> 3;
	param[0x1] = attributeFormats & 0xFFFFFFFF;
	param[0x2] = ((totalAttributes-1) << 28) | ((attributeMask & 0xFFF) << 16) | ((attributeFormats >> 32) & 0xFFFF);

	for (i = 0; i < totalAttributes; i++)
	{
		u8 v               = attributeFormats & 0xF;
		sizeTable[i]       = GPU_FORMATSIZE[v & 3]*((v>>2)+1);
		attributeFormats >>= 4;
	}

	for (i = 0; i < numBuffers; i++)
	{
		u16 stride       = 0;
		param[3*(i+1)+0] = bufferOffsets[i];
		param[3*(i+1)+1] = bufferPermutations[i] & 0xFFFFFFFF;
		for (j = 0; j < bufferNumAttributes[i]; j++)
         stride += sizeTable[(bufferPermutations[i]>>(4*j)) & 0xF];

		param[3*(i+1)+2] = (bufferNumAttributes[i] << 28) | ((stride & 0xFFF)<< 16) | ((bufferPermutations[i] >> 32) & 0xFFFF);
	}

	GPUCMD_AddIncrementalWrites(GPUREG_ATTRIBBUFFERS_LOC, param, 0x00000027);

	GPUCMD_AddMaskedWrite(GPUREG_VSH_INPUTBUFFER_CONFIG, 0xB, 0xA0000000|(totalAttributes-1));
	GPUCMD_AddWrite(GPUREG_VSH_NUM_ATTR, (totalAttributes-1));

	GPUCMD_AddIncrementalWrites(GPUREG_VSH_ATTRIBUTES_PERMUTATION_LOW, ((u32[]){attributePermutation & 0xFFFFFFFF, (attributePermutation >> 32) & 0xFFFF}), 2);
}

void GPU_SetAttributeBuffersAddress(u32* baseAddress)
{
	GPUCMD_AddWrite(GPUREG_ATTRIBBUFFERS_LOC, ((u32)baseAddress) >> 3);
}

void GPU_SetFaceCulling(GPU_CULLMODE mode)
{
	GPUCMD_AddWrite(GPUREG_FACECULLING_CONFIG, mode & 0x3);
}

void GPU_SetCombinerBufferWrite(u8 rgb_config, u8 alpha_config)
{
    GPUCMD_AddMaskedWrite(GPUREG_TEXENV_UPDATE_BUFFER, 0x2, (rgb_config << 8) | (alpha_config << 12));
}

const u8 GPU_TEVID[]={0xC0,0xC8,0xD0,0xD8,0xF0,0xF8};

void GPU_SetTexEnv(u8 id, u16 rgbSources, u16 alphaSources, u16 rgbOperands, u16 alphaOperands, GPU_COMBINEFUNC rgbCombine, GPU_COMBINEFUNC alphaCombine, u32 constantColor)
{
   u32 param[0x5];
   if (id > 6)
      return;

   param[0x0] = (alphaSources  << 16) | (rgbSources);
   param[0x1] = (alphaOperands << 12) | (rgbOperands);
   param[0x2] = (alphaCombine  << 16) | (rgbCombine);
   param[0x3] = constantColor;
   param[0x4] = 0x00000000; /* ? */

   GPUCMD_AddIncrementalWrites(GPUREG_0000|GPU_TEVID[id], param, 0x00000005);
}

void GPU_DrawArray(GPU_Primitive_t primitive, u32 first, u32 count)
{
	/* set primitive type */
	GPUCMD_AddMaskedWrite(GPUREG_PRIMITIVE_CONFIG, 0x2, primitive);
	GPUCMD_AddMaskedWrite(GPUREG_RESTART_PRIMITIVE, 0x2, 0x00000001);
	/* index buffer address register should be cleared 
    * (except bit 31) before drawing */
	GPUCMD_AddWrite(GPUREG_INDEXBUFFER_CONFIG, 0x80000000);
	/* pass number of vertices */
	GPUCMD_AddWrite(GPUREG_NUMVERTICES, count);
	/* set first vertex */
	GPUCMD_AddWrite(GPUREG_VERTEX_OFFSET, first);

	/* all the following except 0x000F022E might be useless */
	GPUCMD_AddMaskedWrite(GPUREG_GEOSTAGE_CONFIG2, 0x1, 0x00000001);
	GPUCMD_AddMaskedWrite(GPUREG_START_DRAW_FUNC0, 0x1, 0x00000000);
	GPUCMD_AddWrite(GPUREG_DRAWARRAYS, 0x00000001);
	GPUCMD_AddMaskedWrite(GPUREG_START_DRAW_FUNC0, 0x1, 0x00000001);
	GPUCMD_AddWrite(GPUREG_VTX_FUNC, 0x00000001);
	GPUCMD_AddWrite(GPUREG_FRAMEBUFFER_FLUSH, 0x00000001);
}

void GPU_DrawElements(GPU_Primitive_t primitive, u32* indexArray, u32 n)
{
	/* set primitive type */
	GPUCMD_AddMaskedWrite(GPUREG_PRIMITIVE_CONFIG, 0x2, primitive);
	GPUCMD_AddMaskedWrite(GPUREG_RESTART_PRIMITIVE, 0x2, 0x00000001);
	/* index buffer (TODO : support multiple types) */
	GPUCMD_AddWrite(GPUREG_INDEXBUFFER_CONFIG, 0x80000000|((u32)indexArray));
	/* pass number of vertices */
	GPUCMD_AddWrite(GPUREG_NUMVERTICES, n);

	GPUCMD_AddWrite(GPUREG_VERTEX_OFFSET, 0x00000000);

	GPUCMD_AddMaskedWrite(GPUREG_GEOSTAGE_CONFIG, 0x2, 0x00000100);
	GPUCMD_AddMaskedWrite(GPUREG_GEOSTAGE_CONFIG2, 0x2, 0x00000100);

	GPUCMD_AddMaskedWrite(GPUREG_START_DRAW_FUNC0, 0x1, 0x00000000);
	GPUCMD_AddWrite(GPUREG_DRAWELEMENTS, 0x00000001);
	GPUCMD_AddMaskedWrite(GPUREG_START_DRAW_FUNC0, 0x1, 0x00000001);
	GPUCMD_AddWrite(GPUREG_VTX_FUNC, 0x00000001);

	/* CHECKME: does this one also require 
    * GPUREG_FRAMEBUFFER_FLUSH at the end? */
}

void GPU_FinishDrawing(void)
{
	GPUCMD_AddWrite(GPUREG_FRAMEBUFFER_FLUSH, 0x00000001);
	GPUCMD_AddWrite(GPUREG_FRAMEBUFFER_INVALIDATE, 0x00000001);
	GPUCMD_AddWrite(GPUREG_EARLYDEPTH_CLEAR, 0x00000001);
}

void GPU_Finalize(void)
{
   GPUCMD_AddMaskedWrite(GPUREG_PRIMITIVE_CONFIG, 0x8, 0x00000000);
   GPUCMD_AddWrite(GPUREG_FRAMEBUFFER_FLUSH, 0x00000001);
   GPUCMD_AddWrite(GPUREG_FRAMEBUFFER_INVALIDATE, 0x00000001);
#if 0
   GPUCMD_Split(NULL, NULL);
#else
   GPUCMD_AddWrite(GPUREG_FINALIZE, 0x12345678);
   /* not the cleanest way of guaranteeing 0x10-byte size 
    * but whatever good enough for now */
   GPUCMD_AddWrite(GPUREG_FINALIZE,0x12345678);
#endif
}