// topscreen void renderFrame() { GPU_SetViewport((u32*)osConvertVirtToPhys((u32)gpuDOut),(u32*)osConvertVirtToPhys((u32)gpuOut),0,0,240*2,400); GPU_DepthRange(-1.0f, 0.0f); GPU_SetFaceCulling(GPU_CULL_BACK_CCW); GPU_SetStencilTest(false, GPU_ALWAYS, 0x00, 0xFF, 0x00); GPU_SetStencilOp(GPU_KEEP, GPU_KEEP, GPU_KEEP); GPU_SetBlendingColor(0,0,0,0); GPU_SetDepthTestAndWriteMask(true, GPU_GREATER, GPU_WRITE_ALL); GPUCMD_AddSingleParam(0x00010062, 0); GPUCMD_AddSingleParam(0x000F0118, 0); //setup shader SHDR_UseProgram(shader, 0); GPU_SetAlphaBlending(GPU_BLEND_ADD, GPU_BLEND_ADD, GPU_SRC_ALPHA, GPU_ONE_MINUS_SRC_ALPHA, GPU_SRC_ALPHA, GPU_ONE_MINUS_SRC_ALPHA); GPU_SetAlphaTest(false, GPU_ALWAYS, 0x00); GPU_SetTextureEnable(GPU_TEXUNIT0); GPU_SetTexEnv(0, GPU_TEVSOURCES(GPU_TEXTURE0, GPU_PRIMARY_COLOR, GPU_PRIMARY_COLOR), GPU_TEVSOURCES(GPU_TEXTURE0, GPU_PRIMARY_COLOR, GPU_PRIMARY_COLOR), GPU_TEVOPERANDS(0,0,0), GPU_TEVOPERANDS(0,0,0), GPU_MODULATE, GPU_MODULATE, 0xFFFFFFFF); GPU_SetDummyTexEnv(1); GPU_SetDummyTexEnv(2); GPU_SetDummyTexEnv(3); GPU_SetDummyTexEnv(4); GPU_SetDummyTexEnv(5); //texturing stuff GPU_SetTexture(GPU_TEXUNIT0, (u32*)osConvertVirtToPhys((u32)texData),128,128,GPU_TEXTURE_MAG_FILTER(GPU_NEAREST)|GPU_TEXTURE_MIN_FILTER(GPU_NEAREST),GPU_RGBA8); GPU_SetAttributeBuffers(3, (u32*)osConvertVirtToPhys((u32)texData), GPU_ATTRIBFMT(0, 3, GPU_FLOAT)|GPU_ATTRIBFMT(1, 2, GPU_FLOAT)|GPU_ATTRIBFMT(2, 3, GPU_FLOAT), 0xFFC, 0x210, 1, (u32[]){0x00000000}, (u64[]){0x210}, (u8[]){3}); //setup lighting (this is specific to our shader) vect3Df_s lightDir=vnormf(vect3Df(cos(lightAngle), -1.0f, sin(lightAngle))); GPU_SetUniform(SHDR_GetUniformRegister(shader, "lightDirection", 0), (u32*)(float[]){0.0f, -lightDir.z, -lightDir.y, -lightDir.x}, 1);
void sf2d_bind_texture(const sf2d_texture *texture, GPU_TEXUNIT unit) { GPU_SetTextureEnable(unit); GPU_SetTexEnv( 0, GPU_TEVSOURCES(GPU_TEXTURE0, GPU_TEXTURE0, GPU_TEXTURE0), GPU_TEVSOURCES(GPU_TEXTURE0, GPU_TEXTURE0, GPU_TEXTURE0), GPU_TEVOPERANDS(0, 0, 0), GPU_TEVOPERANDS(0, 0, 0), GPU_REPLACE, GPU_REPLACE, 0xFFFFFFFF ); GPU_SetTexture( unit, (u32 *)osConvertVirtToPhys((u32)texture->data), // width and height swapped? texture->pow2_h, texture->pow2_w, GPU_TEXTURE_MAG_FILTER(GPU_NEAREST) | GPU_TEXTURE_MIN_FILTER(GPU_NEAREST), texture->pixel_format ); }
void gpuUpdateState() { u32 dirtyUpdate = dirtyState; dirtyState = 0; if(dirtyUpdate & STATE_VIEWPORT) { GPU_SetViewport((u32*) osConvertVirtToPhys((u32) gpuDepthBuffer), (u32*) osConvertVirtToPhys((u32) gpuFrameBuffer), viewportX, viewportY, viewportWidth, viewportHeight); } if(dirtyUpdate & STATE_SCISSOR_TEST) { GPU_SetScissorTest((GPU_SCISSORMODE) scissorMode, scissorX, scissorY, scissorWidth, scissorHeight); } if(dirtyUpdate & STATE_DEPTH_MAP) { GPU_DepthMap(depthNear, depthFar); } if(dirtyUpdate & STATE_CULL) { GPU_SetFaceCulling((GPU_CULLMODE) cullMode); } if(dirtyUpdate & STATE_STENCIL_TEST) { GPU_SetStencilTest(stencilEnable, (GPU_TESTFUNC) stencilFunc, stencilRef, stencilMask, stencilReplace); GPU_SetStencilOp((GPU_STENCILOP) stencilFail, (GPU_STENCILOP) stencilZFail, (GPU_STENCILOP) stencilZPass); } if(dirtyUpdate & STATE_BLEND) { GPU_SetBlendingColor(blendRed, blendGreen, blendBlue, blendAlpha); GPU_SetAlphaBlending((GPU_BLENDEQUATION) blendColorEquation, (GPU_BLENDEQUATION) blendAlphaEquation, (GPU_BLENDFACTOR) blendColorSrc, (GPU_BLENDFACTOR) blendColorDst, (GPU_BLENDFACTOR) blendAlphaSrc, (GPU_BLENDFACTOR) blendAlphaDst); } if(dirtyUpdate & STATE_ALPHA_TEST) { GPU_SetAlphaTest(alphaEnable, (GPU_TESTFUNC) alphaFunc, alphaRef); } if(dirtyUpdate & STATE_DEPTH_TEST_AND_MASK) { GPU_SetDepthTestAndWriteMask(depthEnable, (GPU_TESTFUNC) depthFunc, (GPU_WRITEMASK) componentMask); } if((dirtyUpdate & STATE_ACTIVE_SHADER) && activeShader != NULL && activeShader->dvlb != NULL) { shaderProgramUse(&activeShader->program); } if((dirtyUpdate & STATE_TEX_ENV) && dirtyTexEnvs != 0) { u32 texEnvs = dirtyTexEnvs; dirtyTexEnvs = 0; for(u8 env = 0; env < TEX_ENV_COUNT; env++) { if(texEnvs & (1 << env)) { GPU_SetTexEnv(env, texEnv[env].rgbSources, texEnv[env].alphaSources, texEnv[env].rgbOperands, texEnv[env].alphaOperands, (GPU_COMBINEFUNC) texEnv[env].rgbCombine, (GPU_COMBINEFUNC) texEnv[env].alphaCombine, texEnv[env].constantColor); } } } if((dirtyUpdate & STATE_TEXTURES) && dirtyTextures != 0) { u32 textures = dirtyTextures; dirtyTextures = 0; for(u8 unit = 0; unit < TEX_UNIT_COUNT; unit++) { if(textures & (1 << unit)) { TexUnit texUnit = unit == 0 ? TEXUNIT0 : unit == 1 ? TEXUNIT1 : TEXUNIT2; TextureData* textureData = activeTextures[unit]; if(textureData != NULL && textureData->data != NULL) { GPU_SetTexture((GPU_TEXUNIT) texUnit, (u32*) osConvertVirtToPhys((u32) textureData->data), (u16) textureData->height, (u16) textureData->width, textureData->params, (GPU_TEXCOLOR) textureData->format); enabledTextures |= texUnit; } else { enabledTextures &= ~texUnit; } } } GPU_SetTextureEnable((GPU_TEXUNIT) enabledTextures); } }
void RenderTopScreen() { // notes on the drawing process // GPU hangs if we attempt to draw an even number of arrays :/ which is why we draw the border 'twice' // textures used here are actually 512x256. TODO: investigate if GPU_SetTexture() really has the params in the wrong order // or if we did something wrong. //general setup GPU_SetViewport((u32*)osConvertVirtToPhys((u32)gpuDOut),(u32*)osConvertVirtToPhys((u32)gpuOut),0,0,240*2,400); GPU_DepthRange(-1.0f, 0.0f); GPU_SetFaceCulling(GPU_CULL_BACK_CCW); GPU_SetStencilTest(false, GPU_ALWAYS, 0x00); GPU_SetDepthTest(false, GPU_ALWAYS, 0x1F); // ? GPUCMD_AddSingleParam(0x00010062, 0x00000000); //param always 0x0 according to code GPUCMD_AddSingleParam(0x000F0118, 0x00000000); //setup shader SHDR_UseProgram(shader, 0); //? GPUCMD_AddSingleParam(0x000F0100, 0x00E40100); GPUCMD_AddSingleParam(0x000F0101, 0x01010000); GPUCMD_AddSingleParam(0x000F0104, 0x00000010); //texturing stuff GPUCMD_AddSingleParam(0x0002006F, 0x00000100); GPUCMD_AddSingleParam(0x000F0080, 0x00011001); //enables/disables texturing //texenv GPU_SetTexEnv(0, GPU_TEVSOURCES(GPU_TEXTURE0, 0, 0), GPU_TEVSOURCES(GPU_CONSTANT, 0, 0), GPU_TEVOPERANDS(0,0,0), GPU_TEVOPERANDS(0,0,0), GPU_REPLACE, GPU_REPLACE, 0xFFFFFFFF); GPU_SetDummyTexEnv(1); GPU_SetDummyTexEnv(2); GPU_SetDummyTexEnv(3); GPU_SetDummyTexEnv(4); GPU_SetDummyTexEnv(5); //texturing stuff GPU_SetTexture((u32*)osConvertVirtToPhys((u32)BorderTex),256,512,0,GPU_RGBA8); // texture is actually 512x256 //setup matrices setUniformMatrix(0x24, mvMatrix); setUniformMatrix(0x20, projMatrix); // border GPU_SetAttributeBuffers(2, (u32*)osConvertVirtToPhys((u32)borderVertices), GPU_ATTRIBFMT(0, 3, GPU_FLOAT)|GPU_ATTRIBFMT(1, 2, GPU_FLOAT), 0xFFC, 0x10, 1, (u32[]){0x00000000}, (u64[]){0x10}, (u8[]){2}); GPU_DrawArray(GPU_TRIANGLES, 3); GPU_DrawArray(GPU_TRIANGLES, 2*3); GPU_DepthRange(-1.0f, 0.0f); GPU_SetFaceCulling(GPU_CULL_BACK_CCW); GPU_SetStencilTest(false, GPU_ALWAYS, 0x00); GPU_SetDepthTest(false, GPU_ALWAYS, 0x1F); GPUCMD_AddSingleParam(0x00010062, 0x00000000); GPUCMD_AddSingleParam(0x000F0118, 0x00000000); GPUCMD_AddSingleParam(0x000F0100, 0x00000100); GPUCMD_AddSingleParam(0x000F0101, 0x01010000); GPUCMD_AddSingleParam(0x000F0104, 0x00000010); //texturing stuff GPUCMD_AddSingleParam(0x0002006F, 0x00000700); // enables/disables texcoord output GPUCMD_AddSingleParam(0x000F0080, 0x00011007); //enables/disables texturing // TEXTURE ENV STAGES // --- // blending operation: (Main.Color +- (Sub.Color * Main.Alpha)) * Sub.Alpha // Main.Alpha = 0/255 depending on color math // Sub.Alpha = 128/255 depending on color div2 // note: the main/sub intensities are halved to prevent overflow during the operations. // (each TEV stage output is clamped to [0,255]) // stage 4 makes up for this // --- // STAGE 1: Out.Color = Sub.Color * Main.Alpha, Out.Alpha = Sub.Alpha + (1-Main.Alpha) (cancel out div2 when color math doesn't happen) GPU_SetTexEnv(0, GPU_TEVSOURCES(GPU_TEXTURE1, GPU_TEXTURE0, 0), GPU_TEVSOURCES(GPU_TEXTURE1, GPU_TEXTURE0, 0), GPU_TEVOPERANDS(0,2,0), GPU_TEVOPERANDS(0,1,0), GPU_MODULATE, GPU_ADD, 0xFFFFFFFF); // STAGE 2: Out.Color = Main.Color +- Prev.Color, Out.Alpha = Prev.Alpha GPU_SetTexEnv(1, GPU_TEVSOURCES(GPU_TEXTURE0, GPU_PREVIOUS, 0), GPU_TEVSOURCES(GPU_PREVIOUS, 0, 0), GPU_TEVOPERANDS(0,0,0), GPU_TEVOPERANDS(0,0,0), (PPU_ColorMath & 0x80) ? GPU_SUBTRACT:GPU_ADD, GPU_REPLACE, 0xFFFFFFFF); // STAGE 3: Out.Color = Prev.Color * Prev.Alpha, Out.Alpha = Prev.Alpha GPU_SetTexEnv(2, GPU_TEVSOURCES(GPU_PREVIOUS, GPU_PREVIOUS, 0), GPU_TEVSOURCES(GPU_PREVIOUS, 0, 0), GPU_TEVOPERANDS(0,2,0), GPU_TEVOPERANDS(0,0,0), GPU_MODULATE, GPU_REPLACE, 0xFFFFFFFF); // STAGE 4: Out.Color = Prev.Color + Prev.Color (doubling color intensity), Out.Alpha = Const.Alpha GPU_SetTexEnv(3, GPU_TEVSOURCES(GPU_PREVIOUS, GPU_PREVIOUS, 0), GPU_TEVSOURCES(GPU_CONSTANT, 0, 0), GPU_TEVOPERANDS(0,0,0), GPU_TEVOPERANDS(0,0,0), GPU_ADD, GPU_REPLACE, 0xFFFFFFFF); // STAGE 5: master brightness - Out.Color = Prev.Color * Bright.Alpha, Out.Alpha = Const.Alpha GPU_SetTexEnv(4, GPU_TEVSOURCES(GPU_PREVIOUS, GPU_TEXTURE2, 0), GPU_TEVSOURCES(GPU_CONSTANT, 0, 0), GPU_TEVOPERANDS(0,2,0), GPU_TEVOPERANDS(0,0,0), GPU_MODULATE, GPU_REPLACE, 0xFFFFFFFF); // STAGE 6: dummy GPU_SetDummyTexEnv(5); GPU_SetAttributeBuffers(3, (u32*)osConvertVirtToPhys((u32)screenVertices), GPU_ATTRIBFMT(0, 3, GPU_FLOAT)|GPU_ATTRIBFMT(1, 2, GPU_FLOAT)|GPU_ATTRIBFMT(2, 2, GPU_FLOAT), 0xFFC, 0x210, 1, (u32[]){0x00000000}, (u64[]){0x210}, (u8[]){3}); GPU_SetTexture((u32*)osConvertVirtToPhys((u32)MainScreenTex),256,512,0,GPU_RGBA8); GPU_SetTexture1((u32*)osConvertVirtToPhys((u32)SubScreenTex),256,512,0,GPU_RGBA8); GPU_SetTexture2((u32*)osConvertVirtToPhys((u32)BrightnessTex),256,8,0x200,GPU_A8); GPU_DrawArray(GPU_TRIANGLES, 2*3); }