# What's the correct way to draw a distorted plane in OpenGL?

I've tryed to distort a plane using GL_QUADS, GL_TRIANGLES and GL_POLYGON:

``````glBegin(GL_QUADS);
for (int i = 0; i < squareIn.size(); i++) {
glNormal3f(0,0,1);
glTexCoord2f(squareIn[i]->v1->x,squareIn[i]->v1->y);
glVertex2f(squareOut[i]->v1->x,squareOut[i]->v1->y);
glTexCoord2f(squareIn[i]->v2->x,squareIn[i]->v2->y);
glVertex2f(squareOut[i]->v2->x,squareOut[i]->v2->y);
glTexCoord2f(squareIn[i]->v3->x,squareIn[i]->v3->y);
glVertex2f(squareOut[i]->v3->x,squareOut[i]->v3->y);
glTexCoord2f(squareIn[i]->v4->x,squareIn[i]->v4->y);
glVertex2f(squareOut[i]->v4->x,squareOut[i]->v4->y);
glTexCoord2f(squareIn[i]->v1->x,squareIn[i]->v1->y);
glVertex2f(squareOut[i]->v1->x,squareOut[i]->v1->y);
}
glEnd();
``````

But all of them gives this result when I do a extreme distortion:

Expected result:

I saw two possible solutions right now, using glNormal or glMultMatrixf.

glNormal apparently look a elegant solution, while glMultMatrixf look complex. But I can't find any code explaining how to calculate glNormals to texture a Plane.

Here's a good example using glMultMatrif.

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What exactly are you expecting to happen, visually? And more importantly, which are you using: desktop OpenGL or OpenGL ES? Because they're not the same thing. –  Nicol Bolas Jun 7 '13 at 17:29
Hi Nicol, I am working with OpenGL ES, and I am expecting a result like this image. –  Carlos Oliveira Jun 7 '13 at 17:49
In order to have perspective interpolation, you need to provide appropriate w-coordinates for your vertices. You can either achieve this with perspective transformations or by setting them directly. –  Nico Schertler Jun 7 '13 at 17:53
How I do that? Do you have a simple code example? Thanks! –  Carlos Oliveira Jun 7 '13 at 17:56
Using matrixes for transformation is the most general and probably the most powerful method. I advise you to take this way, even if it needs more 'complex' maths (not that a matrix can be decomposed, which make it easier to deal with). –  Synxis Jun 7 '13 at 18:08

I worked on a OpenFramworks code that subdived the image in parts, adapted from here:

``````//----------------------------------------- setup
#define GRID_X 8
#define GRID_Y 8

float * compL = new float[GRID_Y];
float * compR = new float[GRID_Y];

memset(compL, 0, GRID_Y * sizeof(float));
memset(compR, 0, GRID_Y * sizeof(float));

ofPoint * grid = new ofPoint[GRID_X * GRID_Y];
ofPoint * coor = new ofPoint[GRID_X * GRID_Y];

int width = imageGrid.width;
int height = imageGrid.height;

//----------------------------------------- update

int gridSizeX = GRID_X;
int gridSizeY = GRID_Y;

float xRes = 1.0/(gridSizeX-1);
float yRes = 1.0/(gridSizeY-1);

for(int y = 0; y < gridSizeY; y++){
for(int x = 0; x < gridSizeX; x++){

int index = y*gridSizeX + x;

float pctx  = (float)x * xRes;
float pcty  = (float)y * yRes;

float pctyL = pcty + yRes*compL[y];
float pctyR = pcty + yRes*compR[y];

float ptx       = (1-pctx) * linePt0x + pctx * linePt1x;
float pty       = (1-pctx) * linePt0y + pctx * linePt1y;

float tt        = (1-pctx) * utPt0x + pctx * utPt1x;
float uu        = (1-pctx) * utPt0y + pctx * utPt1y;

grid[index].set(ptx, pty, 0);
coor[index].set( (tt * imageGrid.getTextureReference().texData.tex_t), imageGrid.getTextureReference().texData.bFlipTexture ? imageGrid.getTextureReference().texData.tex_u - (uu * imageGrid.getTextureReference().texData.tex_u) : (uu * imageGrid.getTextureReference().texData.tex_u), 0);
}
}

//----------------------------------------- draw

ofSetColor(255, 255, 255);
ofFill();

glEnable(imageGrid.getTextureReference().texData.textureTarget);
glBindTexture( imageGrid.getTextureReference().texData.textureTarget, (GLuint)imageGrid.getTextureReference().texData.textureID);

for(int y = 0; y < gridSizeY-1; y++){
for(int x = 0; x < gridSizeX-1; x++){

int pt0 = x + y*gridSizeX;
int pt1 = (x+1) + y*gridSizeX;
int pt2 = (x+1) + (y+1)*gridSizeX;
int pt3 = x + (y+1)*gridSizeX;

glTexCoord2f(coor[pt0].x, coor[pt0].y);
glVertex2f(  grid[pt0].x, grid[pt0].y);

glTexCoord2f(coor[pt1].x, coor[pt1].y);
glVertex2f(  grid[pt1].x, grid[pt1].y);

glTexCoord2f(coor[pt2].x, coor[pt2].y);
glVertex2f(  grid[pt2].x, grid[pt2].y);

glTexCoord2f(coor[pt3].x, coor[pt3].y);
glVertex2f(  grid[pt3].x, grid[pt3].y);

glEnd();

}
}
glDisable(imageGrid.getTextureReference().texData.textureTarget);

//Draw grid
ofSetColor(255, 0, 0);
ofNoFill();
for(int y = 0; y < gridSizeY-1; y++){
for(int x = 0; x < gridSizeX-1; x++){

glBegin(GL_LINE_LOOP);

int pt0 = x + y*gridSizeX;
int pt1 = (x+1) + y*gridSizeX;
int pt2 = (x+1) + (y+1)*gridSizeX;
int pt3 = x + (y+1)*gridSizeX;

glVertex2f(  grid[pt0].x, grid[pt0].y);
glVertex2f(  grid[pt1].x, grid[pt1].y);
glVertex2f(  grid[pt2].x, grid[pt2].y);
glVertex2f(  grid[pt3].x, grid[pt3].y);

glEnd();

}
}
``````

The result is awesome:

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