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Aquaria/BBGE/RenderGrid.cpp

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#include "RenderGrid.h"
#include "RenderBase.h"
#include "RenderState.h"
static void ResetGrid(Vector* dst, size_t w, size_t h)
{
assert(w > 1 && h > 1);
const float xMulF = 1.0f / (float)(w-1);
const float yMulF = 1.0f / (float)(h-1);
for (size_t y = 0; y < h; y++)
{
const float yval = float(y)*yMulF-0.5f;
for (size_t x = 0; x < w; x++)
{
dst->x = float(x)*xMulF-0.5f;
dst->y = yval;
++dst;
}
}
}
void RenderGrid::ResetWithAlpha(Vector* dst, size_t w, size_t h, float alpha)
{
assert(w > 1 && h > 1);
const float xMulF = 1.0f / (float)(w-1);
const float yMulF = 1.0f / (float)(h-1);
for (size_t y = 0; y < h; y++)
{
const float yval = float(y)*yMulF-0.5f;
for (size_t x = 0; x < w; x++)
{
dst->x = float(x)*xMulF-0.5f;
dst->y = yval;
dst->z = alpha;
++dst;
}
}
}
RenderGrid::RenderGrid(size_t w, size_t h)
: gridTimer(0)
, drawGridOffsetX(0), drawGridOffsetY(0), drawGridModX(0), drawGridModY(0), drawGridTimeMultiplier(0)
, drawGridOut(false), gridType(GRID_WAVY), drawOrder(GRID_DRAW_DEFAULT)
{
init(w, h);
}
RenderGrid::~RenderGrid()
{
}
void RenderGrid::init(size_t w, size_t h)
{
assert(w > 1 && h > 1);
grid.init(w, h);
reset();
Vector *dg = grid.data();
for(size_t i = 0; i < grid.linearsize(); ++i)
dg[i].z = 1.0f;
}
void RenderGrid::reset()
{
ResetGrid(grid.data(), grid.width(), grid.height());
}
void RenderGrid::resetWithAlpha(float a)
{
ResetWithAlpha(grid.data(), grid.width(), grid.height(), a);
}
void RenderGrid::update(float dt)
{
if (gridType == GRID_WAVY)
{
gridTimer += dt * drawGridTimeMultiplier;
reset();
const size_t w = grid.width();
const size_t h = grid.height();
size_t nx = w;
if(drawGridOut)
nx /= 2;
for (size_t y = 0; y < h; y++)
{
Vector * const row = grid.row(y);
const float xoffset = y * drawGridOffsetX;
const float addx = sinf(gridTimer+xoffset)*drawGridModX;
size_t x;
for (x = 0; x < nx; x++)
row[x].x -= addx;
for (; x < w; x++)
row[x].x += addx;
if(const float dgmy = drawGridModY)
for (x = 0; x < w; x++)
{
float yoffset = x * drawGridOffsetY;
row[x].y += cosf(gridTimer+yoffset)*dgmy;
}
}
}
}
void RenderGrid::setAlpha(size_t x, size_t y, float a)
{
if (x < grid.width() && y < grid.height())
grid(x, y).z = a;
}
void RenderGrid::setSegs(float dgox, float dgoy, float dgmx, float dgmy, float dgtm, bool dgo)
{
drawGridOffsetX = dgox;
drawGridOffsetY = dgoy;
drawGridModX = dgmx;
drawGridModY = dgmy;
drawGridTimeMultiplier = dgtm;
drawGridOut = dgo;
gridTimer = 0;
gridType = GRID_WAVY;
}
void RenderGrid::setStripPoints(bool vert, const Vector* points, size_t n)
{
reset();
const float mul = float(n);
if (!vert) // horz
{
const size_t xmax = std::min(grid.width(), n);
for (size_t y = 0; y < grid.height(); y++)
{
Vector *row = grid.row(y);
for (size_t x = 0; x < xmax; x++)
row[x] += points[x] * mul;
}
}
else
{
const size_t ymax = std::min(grid.height(), n);
for (size_t x = 0; x < grid.width(); x++)
for (size_t y = 0; y < ymax; y++)
grid(x, y) += points[y] * mul;
}
}
void RenderGrid::setFromWavy(const float* wavy, size_t len, float width)
{
const size_t NX = grid.width() - 1;
const size_t H = grid.height();
const float iw = 1.0f / width;
for (size_t y = 0; y < H; y++)
{
const size_t wavy_y = (H - y)-1;
if (wavy_y < len)
{
const float tmp = wavy[wavy_y] * iw;
Vector * const row = grid.row(y);
for (size_t x = 0; x < NX; x++)
{
row[x].x = tmp - 0.5f;
row[x+1].x = tmp + 0.5f;
}
}
}
}
void RenderGrid::render(const RenderState& rs, const Vector& upperLeftTexCoords, const Vector& lowerRightTexCoords) const
{
switch(drawOrder)
{
case GRID_DRAW_LRTB:
render_LRTB(rs, upperLeftTexCoords, lowerRightTexCoords);
break;
case GRID_DRAW_LRBT:
render_LRBT(rs, upperLeftTexCoords, lowerRightTexCoords);
break;
case GRID_DRAW_WORLDMAP:
render_WithAlpha(rs, upperLeftTexCoords, lowerRightTexCoords);
break;
}
}
void RenderGrid::renderDebugPoints(const RenderState& rs) const
{
(void)rs; // unused
glPointSize(2);
glColor3f(1,0,0);
glBegin(GL_POINTS);
const size_t W = grid.width();
const size_t H = grid.height();
for (size_t y = 0; y < H; y++)
{
const Vector * const row = grid.row(y);
for (size_t x = 0; x < W; x++)
glVertex2f(row[x].x, row[x].y);
}
glEnd();
}
void RenderGrid::render_LRTB(const RenderState& rs, const Vector& upperLeftTexCoords, const Vector& lowerRightTexCoords) const
{
const float percentX = lowerRightTexCoords.x - upperLeftTexCoords.x;
const float percentY = lowerRightTexCoords.y - upperLeftTexCoords.y;
const float baseX = upperLeftTexCoords.x;
const float baseY = upperLeftTexCoords.y;
const size_t NX = grid.width()-1;
const size_t NY = grid.height()-1;
// NOTE: These are used to avoid repeated expensive divide operations,
// but they may cause rounding error of around 1 part per million,
// which could in theory cause minor graphical glitches with broken
// OpenGL implementations. --achurch
const float incX = percentX / float(NX);
const float incY = percentY / float(NY);
glColor4f(rs.color.x, rs.color.y, rs.color.z, rs.alpha);
glBegin(GL_QUADS);
float v0 = baseY;
float v1 = v0 + incY;
for (size_t y = 0; y < NY; y++, v0 = v1, v1 += incY)
{
float u0 = baseX;
float u1 = u0 + incX;
const Vector *row0 = grid.row(y);
const Vector *row1 = grid.row(y+1);
for (size_t x = 0; x < NX; x++, u0 = u1, u1 += incX)
{
const Vector dg00 = row0[x];
const Vector dg01 = row1[x];
const Vector dg10 = row0[x+1];
const Vector dg11 = row1[x+1];
glTexCoord2f(u0, v0);
glVertex2f(dg00.x, dg00.y);
glTexCoord2f(u0, v1);
glVertex2f(dg01.x, dg01.y);
glTexCoord2f(u1, v1);
glVertex2f(dg11.x, dg11.y);
glTexCoord2f(u1, v0);
glVertex2f(dg10.x, dg10.y);
}
}
glEnd();
}
void RenderGrid::render_LRBT(const RenderState& rs, const Vector& upperLeftTexCoords, const Vector& lowerRightTexCoords) const
{
const float percentX = lowerRightTexCoords.x - upperLeftTexCoords.x;
const float percentY = upperLeftTexCoords.y - lowerRightTexCoords.y;
const float baseX = upperLeftTexCoords.x;
const float baseY = lowerRightTexCoords.y;
const size_t NX = grid.width()-1;
const size_t NY = grid.height()-1;
// NOTE: These are used to avoid repeated expensive divide operations,
// but they may cause rounding error of around 1 part per million,
// which could in theory cause minor graphical glitches with broken
// OpenGL implementations. --achurch
const float incX = percentX / float(NX);
const float incY = percentY / float(NY);
glColor4f(rs.color.x, rs.color.y, rs.color.z, rs.alpha);
glBegin(GL_QUADS);
float v0 = baseY;
float v1 = v0 + incY;
for (size_t y = NY; y --> 0; v0 = v1, v1 += incY)
{
float u0 = baseX;
float u1 = u0 + incX;
const Vector *row0 = grid.row(y+1);
const Vector *row1 = grid.row(y);
for (size_t x = 0; x < NX; x++, u0 = u1, u1 += incX)
{
const Vector dg00 = row0[x];
const Vector dg01 = row1[x];
const Vector dg10 = row0[x+1];
const Vector dg11 = row1[x+1];
glTexCoord2f(u0, v0);
glVertex2f(dg00.x, dg00.y);
glTexCoord2f(u0, v1);
glVertex2f(dg01.x, dg01.y);
glTexCoord2f(u1, v1);
glVertex2f(dg11.x, dg11.y);
glTexCoord2f(u1, v0);
glVertex2f(dg10.x, dg10.y);
}
}
glEnd();
}
void RenderGrid::render_WithAlpha(const RenderState& rs, const Vector& upperLeftTexCoords, const Vector& lowerRightTexCoords) const
{
const float percentX = fabsf(lowerRightTexCoords.x - upperLeftTexCoords.x);
const float percentY = fabsf(upperLeftTexCoords.y - lowerRightTexCoords.y);
const float baseX =
(lowerRightTexCoords.x < upperLeftTexCoords.x)
? lowerRightTexCoords.x : upperLeftTexCoords.x;
const float baseY =
(lowerRightTexCoords.y < upperLeftTexCoords.y)
? lowerRightTexCoords.y : upperLeftTexCoords.y;
const size_t NX = grid.width()-1;
const size_t NY = grid.height()-1;
// NOTE: These are used to avoid repeated expensive divide operations,
// but they may cause rounding error of around 1 part per million,
// which could in theory cause minor graphical glitches with broken
// OpenGL implementations. --achurch
const float incX = percentX / float(NX);
const float incY = percentY / float(NY);
const Vector c = rs.color;
const float alpha = rs.alpha;
glBegin(GL_QUADS);
float v0 = 1 - percentY + baseY;
float v1 = v0 + incY;
for (size_t y = 0; y < NY; y++, v0 = v1, v1 += incY)
{
float u0 = baseX;
float u1 = u0 + incX;
const Vector *row0 = grid.row(y);
const Vector *row1 = grid.row(y+1);
for (size_t x = 0; x < NX; x++, u0 = u1, u1 += incX)
{
const Vector dg00 = row0[x];
const Vector dg01 = row1[x];
const Vector dg10 = row0[x+1];
const Vector dg11 = row1[x+1];
if (dg00.z != 0 || dg01.z != 0 || dg10.z != 0 || dg11.z != 0)
{
glColor4f(c.x, c.y, c.z, alpha*dg00.z);
glTexCoord2f(u0, v0);
glVertex2f(dg00.x, dg00.y);
glColor4f(c.x, c.y, c.z, alpha*dg01.z);
glTexCoord2f(u0, v1);
glVertex2f(dg01.x, dg01.y);
glColor4f(c.x, c.y, c.z, alpha*dg11.z);
glTexCoord2f(u1, v1);
glVertex2f(dg11.x, dg11.y);
glColor4f(c.x, c.y, c.z, alpha*dg10.z);
glTexCoord2f(u1, v0);
glVertex2f(dg10.x, dg10.y);
}
}
}
glEnd();
}