vmware-svga/examples/cubemark/main.c

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2009-04-13 02:05:42 -05:00
/*
* Cubemark, a microbenchmark which renders a very large number of
* very simple objects. This stresses the throughput of the SVGA3D
* command pipeline and API layers.
*
* Half of the cubes are rendered using fixed-function, and half of
* them are rendered using shaders. This helps hilight any performance
* differences between per-draw setup for FFP vs. for shaders.
*
* Copyright (C) 2008-2009 VMware, Inc. Licensed under the MIT
* License, please see the README.txt. All rights reserved.
*/
#include "svga3dutil.h"
#include "svga3dtext.h"
#include "matrix.h"
#include "math.h"
typedef uint32 DWORD;
#include "cube_vs.h"
#include "cube_ps.h"
#define MY_VSHADER_ID 0
#define MY_PSHADER_ID 0
#define CONST_MAT_VIEW 0
#define CONST_MAT_PROJ 4
typedef struct {
float position[3];
uint32 color;
} MyVertex;
/*
* Two colors for the cubes, so we can see them rotate more easily.
*/
#define COLOR1 0x8080FF
#define COLOR2 0x000080
/*
* This defines the grid spacing, as well as the total number of cubes we draw.
*/
#define GRID_X_MIN (-35)
#define GRID_X_MAX 35
#define GRID_Y_MIN (-20)
#define GRID_Y_MAX 20
#define GRID_STEP 2
static const MyVertex vertexData[] = {
{ {-1, -1, -1}, COLOR1 },
{ {-1, -1, 1}, COLOR1 },
{ {-1, 1, -1}, COLOR1 },
{ {-1, 1, 1}, COLOR1 },
{ { 1, -1, -1}, COLOR2 },
{ { 1, -1, 1}, COLOR2 },
{ { 1, 1, -1}, COLOR2 },
{ { 1, 1, 1}, COLOR2 },
};
#define QUAD(a,b,c,d) a, b, d, d, c, a
static const uint16 indexData[] = {
QUAD(0,1,2,3), // -X
QUAD(4,5,6,7), // +X
QUAD(0,1,4,5), // -Y
QUAD(2,3,6,7), // +Y
QUAD(0,2,4,6), // -Z
QUAD(1,3,5,7), // +Z
};
#undef QUAD
const uint32 numTriangles = sizeof indexData / sizeof indexData[0] / 3;
uint32 vertexSid, indexSid;
Matrix perspectiveMat;
FPSCounterState gFPS;
VMMousePacket lastMouseState;
/*
* render --
*
* Set up common render state and matrices, then enter a loop
* drawing many cubes with individual draw commands.
*
* This render state only needs to be set each frame because
* SVGA3DText_Draw() changes it.
*/
void
render(void)
{
SVGA3dTextureState *ts;
SVGA3dRenderState *rs;
SVGA3dVertexDecl *decls;
SVGA3dPrimitiveRange *ranges;
static Matrix view, instance;
float x, y;
Bool useShaders = FALSE;
Matrix_Copy(view, gIdentityMatrix);
Matrix_Scale(view, 0.5, 0.5, 0.5, 1.0);
Matrix_RotateX(view, 30.0 * M_PI / 180.0);
Matrix_RotateY(view, gFPS.frame * 0.1f);
Matrix_Translate(view, 0, 0, 75);
SVGA3D_SetTransform(CID, SVGA3D_TRANSFORM_WORLD, gIdentityMatrix);
SVGA3D_SetTransform(CID, SVGA3D_TRANSFORM_PROJECTION, perspectiveMat);
SVGA3DUtil_SetShaderConstMatrix(CID, CONST_MAT_PROJ,
SVGA3D_SHADERTYPE_VS, perspectiveMat);
SVGA3D_BeginSetRenderState(CID, &rs, 4);
{
rs[0].state = SVGA3D_RS_BLENDENABLE;
rs[0].uintValue = FALSE;
rs[1].state = SVGA3D_RS_ZENABLE;
rs[1].uintValue = TRUE;
rs[2].state = SVGA3D_RS_ZWRITEENABLE;
rs[2].uintValue = TRUE;
rs[3].state = SVGA3D_RS_ZFUNC;
rs[3].uintValue = SVGA3D_CMP_LESS;
}
SVGA_FIFOCommitAll();
SVGA3D_BeginSetTextureState(CID, &ts, 4);
{
ts[0].stage = 0;
ts[0].name = SVGA3D_TS_BIND_TEXTURE;
ts[0].value = SVGA3D_INVALID_ID;
ts[1].stage = 0;
ts[1].name = SVGA3D_TS_COLOROP;
ts[1].value = SVGA3D_TC_SELECTARG1;
ts[2].stage = 0;
ts[2].name = SVGA3D_TS_COLORARG1;
ts[2].value = SVGA3D_TA_DIFFUSE;
ts[3].stage = 0;
ts[3].name = SVGA3D_TS_ALPHAARG1;
ts[3].value = SVGA3D_TA_DIFFUSE;
}
SVGA_FIFOCommitAll();
for (x = GRID_X_MIN; x <= GRID_X_MAX; x += GRID_STEP) {
for (y = GRID_Y_MIN; y <= GRID_Y_MAX; y += GRID_STEP) {
Matrix_Copy(instance, view);
Matrix_Translate(instance, x, y, 0);
if (useShaders) {
SVGA3D_SetShader(CID, SVGA3D_SHADERTYPE_VS, MY_VSHADER_ID);
SVGA3D_SetShader(CID, SVGA3D_SHADERTYPE_PS, MY_PSHADER_ID);
SVGA3DUtil_SetShaderConstMatrix(CID, CONST_MAT_VIEW,
SVGA3D_SHADERTYPE_VS, instance);
} else {
SVGA3D_SetShader(CID, SVGA3D_SHADERTYPE_VS, SVGA3D_INVALID_ID);
SVGA3D_SetShader(CID, SVGA3D_SHADERTYPE_PS, SVGA3D_INVALID_ID);
SVGA3D_SetTransform(CID, SVGA3D_TRANSFORM_VIEW, instance);
}
SVGA3D_BeginDrawPrimitives(CID, &decls, 2, &ranges, 1);
{
decls[0].identity.type = SVGA3D_DECLTYPE_FLOAT3;
decls[0].identity.usage = SVGA3D_DECLUSAGE_POSITION;
decls[0].array.surfaceId = vertexSid;
decls[0].array.stride = sizeof(MyVertex);
decls[0].array.offset = offsetof(MyVertex, position);
decls[1].identity.type = SVGA3D_DECLTYPE_D3DCOLOR;
decls[1].identity.usage = SVGA3D_DECLUSAGE_COLOR;
decls[1].array.surfaceId = vertexSid;
decls[1].array.stride = sizeof(MyVertex);
decls[1].array.offset = offsetof(MyVertex, color);
ranges[0].primType = SVGA3D_PRIMITIVE_TRIANGLELIST;
ranges[0].primitiveCount = numTriangles;
ranges[0].indexArray.surfaceId = indexSid;
ranges[0].indexArray.stride = sizeof(uint16);
ranges[0].indexWidth = sizeof(uint16);
}
SVGA_FIFOCommitAll();
}
useShaders = !useShaders;
}
SVGA3D_SetShader(CID, SVGA3D_SHADERTYPE_VS, SVGA3D_INVALID_ID);
SVGA3D_SetShader(CID, SVGA3D_SHADERTYPE_PS, SVGA3D_INVALID_ID);
}
/*
* main --
*
* Our example's entry point, invoked directly by the bootloader.
*/
int
main(void)
{
SVGA3DUtil_InitFullscreen(CID, 800, 600);
SVGA3DText_Init();
vertexSid = SVGA3DUtil_DefineStaticBuffer(vertexData, sizeof vertexData);
indexSid = SVGA3DUtil_DefineStaticBuffer(indexData, sizeof indexData);
SVGA3D_DefineShader(CID, MY_VSHADER_ID, SVGA3D_SHADERTYPE_VS,
g_vs20_MyVertexShader, sizeof g_vs20_MyVertexShader);
SVGA3D_DefineShader(CID, MY_PSHADER_ID, SVGA3D_SHADERTYPE_PS,
g_ps20_MyPixelShader, sizeof g_ps20_MyPixelShader);
Matrix_Perspective(perspectiveMat, 45.0f,
gSVGA.width / (float)gSVGA.height, 10.0f, 100.0f);
while (1) {
if (SVGA3DUtil_UpdateFPSCounter(&gFPS)) {
Console_Clear();
Console_Format("Cubemark microbenchmark\n\n%s", gFPS.text);
SVGA3DText_Update();
VMBackdoor_VGAScreenshot();
}
SVGA3DUtil_ClearFullscreen(CID, SVGA3D_CLEAR_COLOR | SVGA3D_CLEAR_DEPTH,
0x000000, 1.0f, 0);
render();
SVGA3DText_Draw();
SVGA3DUtil_PresentFullscreen();
}
return 0;
}