void TextEngine::renderText(float x, float y, float scaleX, float scaleY, bool baseline, const char* text)
{
ssize_t units;
uint32_t code;
// Configure buffers
C3D_BufInfo* bufInfo = C3D_GetBufInfo();
BufInfo_Init(bufInfo);
BufInfo_Add(bufInfo, textVtxArray, sizeof(textVertex_s), 2, 0x10);
const uint8_t* p = (const uint8_t*)text;
float firstX = x;
u32 flags = GLYPH_POS_CALC_VTXCOORD | (baseline ? GLYPH_POS_AT_BASELINE : 0);
int lastSheet = -1;
do
{
if (!*p) break;
units = decode_utf8(&code, p);
if (units == -1)
break;
p += units;
if (code == '\n')
{
x = firstX;
y += scaleY*fontGetInfo()->lineFeed;
}
else if (code > 0)
{
int glyphIdx = fontGlyphIndexFromCodePoint(code);
fontGlyphPos_s data;
fontCalcGlyphPos(&data, glyphIdx, flags, scaleX, scaleY);
// Bind the correct texture sheet
if (data.sheetIndex != lastSheet)
{
lastSheet = data.sheetIndex;
C3D_TexBind(0, &glyphSheets[lastSheet]);
}
int arrayIndex = textVtxArrayPos;
if ((arrayIndex+4) >= TEXT_VTX_ARRAY_COUNT)
break; // We can't render more characters
// Add the vertices to the array
addTextVertex(x+data.vtxcoord.left, y+data.vtxcoord.bottom, data.texcoord.left, data.texcoord.bottom);
addTextVertex(x+data.vtxcoord.right, y+data.vtxcoord.bottom, data.texcoord.right, data.texcoord.bottom);
addTextVertex(x+data.vtxcoord.left, y+data.vtxcoord.top, data.texcoord.left, data.texcoord.top);
addTextVertex(x+data.vtxcoord.right, y+data.vtxcoord.top, data.texcoord.right, data.texcoord.top);
// Draw the glyph
C3D_DrawArrays(GPU_TRIANGLE_STRIP, arrayIndex, 4);
x += data.xAdvance;
}
} while (code > 0);
}
void Sprite::render() {
if (dirtyPixels) {
dirtyPixels = false;
GSPGPU_FlushDataCache(pixels, w * h * format.bytesPerPixel);
C3D_SafeDisplayTransfer((u32*)pixels, GX_BUFFER_DIM(w, h), (u32*)texture.data, GX_BUFFER_DIM(w, h), TEXTURE_TRANSFER_FLAGS);
gspWaitForPPF();
}
C3D_TexBind(0, &texture);
C3D_BufInfo *bufInfo = C3D_GetBufInfo();
BufInfo_Init(bufInfo);
BufInfo_Add(bufInfo, vertices, sizeof(vertex), 2, 0x10);
C3D_DrawArrays(GPU_TRIANGLE_STRIP, 0, 4);
}
void init_gpu_stuff() {
// Load the vertex shader, create a shader program and bind it
vshader_dvlb = DVLB_ParseFile((u32*) vshader_shbin, vshader_shbin_size);
shaderProgramInit(&program);
shaderProgramSetVsh(&program, &vshader_dvlb->DVLE[0]);
C3D_BindProgram(&program);
// Get the location of the uniforms
proj_uloc = shaderInstanceGetUniformLocation(program.vertexShader, "projection");
// Configure attributes for use with the vertex shader
// Attribute format and element count are ignored in immediate mode
C3D_AttrInfo* attrInfo = C3D_GetAttrInfo();
AttrInfo_Init(attrInfo);
AttrInfo_AddLoader(attrInfo, 0, GPU_FLOAT, 3); // v0=position
AttrInfo_AddLoader(attrInfo, 1, GPU_FLOAT, 2); // v1=texcoord
AttrInfo_AddLoader(attrInfo, 2, GPU_FLOAT, 4); // v2=color
// Compute the projection matrix
// Note: we're setting top to 240 here so origin is at top left.
Mtx_OrthoTilt(&proj_mat, 0.0, 400.0, 240.0, 0.0, 0.0, 1.0, true);
// Configure buffers
C3D_BufInfo* bufInfo = C3D_GetBufInfo();
BufInfo_Init(bufInfo);
// Load textures
load_texture(&background_tex, background_png, background_png_size);
load_texture(&empty_tex, empty_png, empty_png_size);
load_texture(&frame_tex, frame_png, frame_png_size);
load_texture(&text_tex, ui_font_png, ui_font_png_size);
load_texture(&tileset_tex, tileset_png, tileset_png_size);
load_texture(&outline_tex, outline_png, outline_png_size);
// Configure the first fragment shading substage to just pass through the texture color
// See https://www.opengl.org/sdk/docs/man2/xhtml/glTexEnv.xml for more insight
C3D_TexEnv* env = C3D_GetTexEnv(0);
C3D_TexEnvSrc(env, C3D_Both, GPU_TEXTURE0, GPU_PRIMARY_COLOR, GPU_PRIMARY_COLOR);
//C3D_TexEnvSrc(env, C3D_Both, GPU_TEXTURE0, 0, 0);
//C3D_TexEnvOp(env, C3D_Both, 0, 0, 0);
C3D_TexEnvFunc(env, C3D_Both, GPU_MODULATE);
//C3D_TexEnvFunc(env, C3D_Both, GPU_REPLACE);
// Configure depth test to overwrite pixels with the same depth (needed to draw overlapping sprites)
C3D_DepthTest(true, GPU_GEQUAL, GPU_WRITE_ALL);
C3D_FVUnifMtx4x4(GPU_VERTEX_SHADER, proj_uloc, &proj_mat);
}
void ctrFlushBatch(void) {
if (ctrNumVerts == 0) {
return;
}
C3D_BufInfo* bufInfo = C3D_GetBufInfo();
BufInfo_Init(bufInfo);
BufInfo_Add(bufInfo, &ctrVertexBuffer[ctrVertStart], sizeof(struct ctrUIVertex), 4, 0x3210);
GSPGPU_FlushDataCache(&ctrVertexBuffer[ctrVertStart], sizeof(struct ctrUIVertex) * ctrNumVerts);
C3D_DrawArrays(GPU_GEOMETRY_PRIM, 0, ctrNumVerts);
ctrVertStart += ctrNumVerts;
ctrNumVerts = 0;
}
void initialize(void) {
// Load the vertex shader, create a shader program and bind it
vshader_dvlb = DVLB_ParseFile((u32*)vshader_shbin, vshader_shbin_size);
shaderProgramInit(&program);
shaderProgramSetVsh(&program, &vshader_dvlb->DVLE[0]);
C3D_BindProgram(&program);
// Get the location of the uniforms
uLoc_projection = shaderInstanceGetUniformLocation(program.vertexShader, "projection");
// Compute the projection matrix
Mtx_OrthoTilt(&projection, -200.0, 200.0, -120.0, 120.0, 0.0, 1.0);
// Update the uniforms
C3D_FVUnifMtx4x4(GPU_VERTEX_SHADER, uLoc_projection, &projection);
// Create the VBO (vertex buffer object)
vbo_data = linearAlloc(sizeof(vertices));
memcpy(vbo_data, vertices, sizeof(vertices));
// Configure buffers
C3D_BufInfo* bufInfo = C3D_GetBufInfo();
BufInfo_Init(bufInfo);
BufInfo_Add(bufInfo, vbo_data, sizeof(vertices[0]), 2, 0x10);
// Configure attributes for use with the vertex shader
C3D_AttrInfo* attrInfo = C3D_GetAttrInfo();
AttrInfo_Init(attrInfo);
AttrInfo_AddLoader(attrInfo, 0, GPU_FLOAT, 2); // v0=x,y
AttrInfo_AddLoader(attrInfo, 1, GPU_FLOAT, 3); // v1=r,g,b
// Configure the first fragment shading substage to just pass through the vertex color
// See https://www.opengl.org/sdk/docs/man2/xhtml/glTexEnv.xml for more insight
C3D_TexEnv* env = C3D_GetTexEnv(0);
C3D_TexEnvSrc(env, C3D_Both, GPU_PRIMARY_COLOR, 0, 0);
C3D_TexEnvOp(env, C3D_Both, 0, 0, 0);
C3D_TexEnvFunc(env, C3D_Both, GPU_REPLACE);
}
static void sceneInit(void)
{
// Load the vertex shader, create a shader program and bind it
vshader_dvlb = DVLB_ParseFile((u32*)vshader_shbin, vshader_shbin_size);
shaderProgramInit(&program);
shaderProgramSetVsh(&program, &vshader_dvlb->DVLE[0]);
C3D_BindProgram(&program);
// Get the location of the uniforms
uLoc_projection = shaderInstanceGetUniformLocation(program.vertexShader, "Projection");
// Configure attributes for use with the vertex shader
C3D_AttrInfo* attrInfo = C3D_GetAttrInfo();
AttrInfo_Init(attrInfo);
AttrInfo_AddLoader(attrInfo, 0, GPU_FLOAT, 3); // v0=position
AttrInfo_AddFixed(attrInfo, 1); // v1=color
// Set the fixed attribute (color) to solid white
C3D_FixedAttribSet(1, 1.0, 1.0, 1.0, 1.0);
// Compute the projection matrix
Mtx_OrthoTilt(&projection, 0.0, 400.0, 0.0, 240.0, 0.0, 1.0);
// Create the VBO (vertex buffer object)
vbo_data = linearAlloc(sizeof(vertex_list));
memcpy(vbo_data, vertex_list, sizeof(vertex_list));
// Configure buffers
C3D_BufInfo* bufInfo = C3D_GetBufInfo();
BufInfo_Init(bufInfo);
BufInfo_Add(bufInfo, vbo_data, sizeof(vertex), 1, 0x0);
// Configure the first fragment shading substage to just pass through the vertex color
// See https://www.opengl.org/sdk/docs/man2/xhtml/glTexEnv.xml for more insight
C3D_TexEnv* env = C3D_GetTexEnv(0);
C3D_TexEnvSrc(env, C3D_Both, GPU_PRIMARY_COLOR, 0, 0);
C3D_TexEnvOp(env, C3D_Both, 0, 0, 0);
C3D_TexEnvFunc(env, C3D_Both, GPU_REPLACE);
}
static void sceneInit(void)
{
// Load the shaders and create a shader program
// The geoshader stride is set to 6 so that it processes a triangle at a time
program_dvlb = DVLB_ParseFile((u32*)program_shbin, program_shbin_size);
shaderProgramInit(&program);
shaderProgramSetVsh(&program, &program_dvlb->DVLE[0]);
shaderProgramSetGsh(&program, &program_dvlb->DVLE[1], 6);
C3D_BindProgram(&program);
// Get the location of the projection matrix uniform
uLoc_projection = shaderInstanceGetUniformLocation(program.geometryShader, "projection");
// Configure attributes for use with the vertex shader
C3D_AttrInfo* attrInfo = C3D_GetAttrInfo();
AttrInfo_Init(attrInfo);
AttrInfo_AddLoader(attrInfo, 0, GPU_FLOAT, 3); // v0=position
AttrInfo_AddLoader(attrInfo, 1, GPU_FLOAT, 4); // v1=color
// Compute the projection matrix
Mtx_OrthoTilt(&projection, 0.0, 400.0, 0.0, 240.0, 0.0, 1.0);
// Create the VBO (vertex buffer object)
vbo_data = linearAlloc(sizeof(vertex_list));
memcpy(vbo_data, vertex_list, sizeof(vertex_list));
// Configure buffers
C3D_BufInfo* bufInfo = C3D_GetBufInfo();
BufInfo_Init(bufInfo);
BufInfo_Add(bufInfo, vbo_data, sizeof(vertex), 2, 0x10);
// Configure the first fragment shading substage to just pass through the vertex color
// See https://www.opengl.org/sdk/docs/man2/xhtml/glTexEnv.xml for more insight
C3D_TexEnv* env = C3D_GetTexEnv(0);
C3D_TexEnvSrc(env, C3D_Both, GPU_PRIMARY_COLOR, 0, 0);
C3D_TexEnvOp(env, C3D_Both, 0, 0, 0);
C3D_TexEnvFunc(env, C3D_Both, GPU_REPLACE);
}
//---------------------------------------------------------------------------------
static void sceneInit(void) {
//---------------------------------------------------------------------------------
int i;
// Load the vertex shader, create a shader program and bind it
vshader_dvlb = DVLB_ParseFile((u32*)vshader_shbin, vshader_shbin_size);
shaderProgramInit(&program);
shaderProgramSetVsh(&program, &vshader_dvlb->DVLE[0]);
C3D_BindProgram(&program);
// Get the location of the uniforms
uLoc_projection = shaderInstanceGetUniformLocation(program.vertexShader, "projection");
// Configure attributes for use with the vertex shader
// Attribute format and element count are ignored in immediate mode
C3D_AttrInfo* attrInfo = C3D_GetAttrInfo();
AttrInfo_Init(attrInfo);
AttrInfo_AddLoader(attrInfo, 0, GPU_FLOAT, 3); // v0=position
AttrInfo_AddLoader(attrInfo, 1, GPU_FLOAT, 2); // v2=texcoord
// Compute the projection matrix
// Note: we're setting top to 240 here so origin is at top left.
Mtx_OrthoTilt(&projection, 0.0, 400.0, 240.0, 0.0, 0.0, 1.0);
// Configure buffers
C3D_BufInfo* bufInfo = C3D_GetBufInfo();
BufInfo_Init(bufInfo);
unsigned char* image;
unsigned width, height;
lodepng_decode32(&image, &width, &height, ballsprites_png, ballsprites_png_size);
u8 *gpusrc = linearAlloc(width*height*4);
// GX_DisplayTransfer needs input buffer in linear RAM
u8* src=image; u8 *dst=gpusrc;
// lodepng outputs big endian rgba so we need to convert
for(int i = 0; i<width*height; i++) {
int r = *src++;
int g = *src++;
int b = *src++;
int a = *src++;
*dst++ = a;
*dst++ = b;
*dst++ = g;
*dst++ = r;
}
// ensure data is in physical ram
GSPGPU_FlushDataCache(gpusrc, width*height*4);
// Load the texture and bind it to the first texture unit
C3D_TexInit(&spritesheet_tex, width, height, GPU_RGBA8);
// Convert image to 3DS tiled texture format
C3D_SafeDisplayTransfer ((u32*)gpusrc, GX_BUFFER_DIM(width,height), (u32*)spritesheet_tex.data, GX_BUFFER_DIM(width,height), TEXTURE_TRANSFER_FLAGS);
gspWaitForPPF();
C3D_TexSetFilter(&spritesheet_tex, GPU_LINEAR, GPU_NEAREST);
C3D_TexBind(0, &spritesheet_tex);
free(image);
linearFree(gpusrc);
// Configure the first fragment shading substage to just pass through the texture color
// See https://www.opengl.org/sdk/docs/man2/xhtml/glTexEnv.xml for more insight
C3D_TexEnv* env = C3D_GetTexEnv(0);
C3D_TexEnvSrc(env, C3D_Both, GPU_TEXTURE0, 0, 0);
C3D_TexEnvOp(env, C3D_Both, 0, 0, 0);
C3D_TexEnvFunc(env, C3D_Both, GPU_REPLACE);
srand(time(NULL));
for(i = 0; i < NUM_SPRITES; i++) {
//random place and speed
sprites[i].x = (rand() % (400 - 32 )) << 8;
sprites[i].y = (rand() % (240 - 32 )) << 8 ;
sprites[i].dx = (rand() & 0xFF) + 0x100;
sprites[i].dy = (rand() & 0xFF) + 0x100;
sprites[i].image = rand() & 3;
if(rand() & 1)
sprites[i].dx = -sprites[i].dx;
if(rand() & 1)
sprites[i].dy = -sprites[i].dy;
}
// Configure depth test to overwrite pixels with the same depth (needed to draw overlapping sprites)
C3D_DepthTest(true, GPU_GEQUAL, GPU_WRITE_ALL);
}
