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glfw/examples/splitview.c

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//========================================================================
// This is an example program for the GLFW library
//
// The program uses a "split window" view, rendering four views of the
// same scene in one window (e.g. uesful for 3D modelling software). This
// demo uses scissors to separete the four different rendering areas from
// each other.
//
// (If the code seems a little bit strange here and there, it may be
// because I am not a friend of orthogonal projections)
//========================================================================
#define GLFW_INCLUDE_GLU
#include <GLFW/glfw3.h>
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#include <math.h>
#include <stdio.h>
#include <stdlib.h>
#ifndef M_PI
#define M_PI 3.14159265358979323846
#endif
//========================================================================
// Global variables
//========================================================================
// Mouse position
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static double xpos = 0, ypos = 0;
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// Window size
static int width, height;
// Active view: 0 = none, 1 = upper left, 2 = upper right, 3 = lower left,
// 4 = lower right
static int active_view = 0;
// Rotation around each axis
static int rot_x = 0, rot_y = 0, rot_z = 0;
// Do redraw?
static int do_redraw = 1;
//========================================================================
// Draw a solid torus (use a display list for the model)
//========================================================================
#define TORUS_MAJOR 1.5
#define TORUS_MINOR 0.5
#define TORUS_MAJOR_RES 32
#define TORUS_MINOR_RES 32
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static void drawTorus(void)
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{
static GLuint torus_list = 0;
int i, j, k;
double s, t, x, y, z, nx, ny, nz, scale, twopi;
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if (!torus_list)
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{
// Start recording displaylist
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torus_list = glGenLists(1);
glNewList(torus_list, GL_COMPILE_AND_EXECUTE);
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// Draw torus
twopi = 2.0 * M_PI;
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for (i = 0; i < TORUS_MINOR_RES; i++)
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{
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glBegin(GL_QUAD_STRIP);
for (j = 0; j <= TORUS_MAJOR_RES; j++)
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{
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for (k = 1; k >= 0; k--)
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{
s = (i + k) % TORUS_MINOR_RES + 0.5;
t = j % TORUS_MAJOR_RES;
// Calculate point on surface
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x = (TORUS_MAJOR + TORUS_MINOR * cos(s * twopi / TORUS_MINOR_RES)) * cos(t * twopi / TORUS_MAJOR_RES);
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y = TORUS_MINOR * sin(s * twopi / TORUS_MINOR_RES);
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z = (TORUS_MAJOR + TORUS_MINOR * cos(s * twopi / TORUS_MINOR_RES)) * sin(t * twopi / TORUS_MAJOR_RES);
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// Calculate surface normal
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nx = x - TORUS_MAJOR * cos(t * twopi / TORUS_MAJOR_RES);
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ny = y;
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nz = z - TORUS_MAJOR * sin(t * twopi / TORUS_MAJOR_RES);
scale = 1.0 / sqrt(nx*nx + ny*ny + nz*nz);
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nx *= scale;
ny *= scale;
nz *= scale;
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glNormal3f((float) nx, (float) ny, (float) nz);
glVertex3f((float) x, (float) y, (float) z);
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}
}
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glEnd();
}
// Stop recording displaylist
glEndList();
}
else
{
// Playback displaylist
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glCallList(torus_list);
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}
}
//========================================================================
// Draw the scene (a rotating torus)
//========================================================================
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static void drawScene(void)
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{
const GLfloat model_diffuse[4] = {1.0f, 0.8f, 0.8f, 1.0f};
const GLfloat model_specular[4] = {0.6f, 0.6f, 0.6f, 1.0f};
const GLfloat model_shininess = 20.0f;
glPushMatrix();
// Rotate the object
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glRotatef((GLfloat) rot_x * 0.5f, 1.0f, 0.0f, 0.0f);
glRotatef((GLfloat) rot_y * 0.5f, 0.0f, 1.0f, 0.0f);
glRotatef((GLfloat) rot_z * 0.5f, 0.0f, 0.0f, 1.0f);
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// Set model color (used for orthogonal views, lighting disabled)
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glColor4fv(model_diffuse);
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// Set model material (used for perspective view, lighting enabled)
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glMaterialfv(GL_FRONT, GL_DIFFUSE, model_diffuse);
glMaterialfv(GL_FRONT, GL_SPECULAR, model_specular);
glMaterialf(GL_FRONT, GL_SHININESS, model_shininess);
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// Draw torus
drawTorus();
glPopMatrix();
}
//========================================================================
// Draw a 2D grid (used for orthogonal views)
//========================================================================
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static void drawGrid(float scale, int steps)
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{
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int i;
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float x, y;
glPushMatrix();
// Set background to some dark bluish grey
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glClearColor(0.05f, 0.05f, 0.2f, 0.0f);
glClear(GL_COLOR_BUFFER_BIT);
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// Setup modelview matrix (flat XY view)
glLoadIdentity();
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gluLookAt(0.0, 0.0, 1.0,
0.0, 0.0, 0.0,
0.0, 1.0, 0.0);
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// We don't want to update the Z-buffer
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glDepthMask(GL_FALSE);
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// Set grid color
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glColor3f(0.0f, 0.5f, 0.5f);
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glBegin(GL_LINES);
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// Horizontal lines
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x = scale * 0.5f * (float) (steps - 1);
y = -scale * 0.5f * (float) (steps - 1);
for (i = 0; i < steps; i++)
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{
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glVertex3f(-x, y, 0.0f);
glVertex3f(x, y, 0.0f);
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y += scale;
}
// Vertical lines
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x = -scale * 0.5f * (float) (steps - 1);
y = scale * 0.5f * (float) (steps - 1);
for (i = 0; i < steps; i++)
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{
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glVertex3f(x, -y, 0.0f);
glVertex3f(x, y, 0.0f);
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x += scale;
}
glEnd();
// Enable Z-buffer writing again
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glDepthMask(GL_TRUE);
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glPopMatrix();
}
//========================================================================
// Draw all views
//========================================================================
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static void drawAllViews(void)
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{
const GLfloat light_position[4] = {0.0f, 8.0f, 8.0f, 1.0f};
const GLfloat light_diffuse[4] = {1.0f, 1.0f, 1.0f, 1.0f};
const GLfloat light_specular[4] = {1.0f, 1.0f, 1.0f, 1.0f};
const GLfloat light_ambient[4] = {0.2f, 0.2f, 0.3f, 1.0f};
double aspect;
// Calculate aspect of window
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if (height > 0)
aspect = (double) width / (double) height;
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else
aspect = 1.0;
// Clear screen
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glClearColor(0.0f, 0.0f, 0.0f, 0.0f);
glClear(GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT);
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// Enable scissor test
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glEnable(GL_SCISSOR_TEST);
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// Enable depth test
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glEnable(GL_DEPTH_TEST);
glDepthFunc(GL_LEQUAL);
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// ** ORTHOGONAL VIEWS **
// For orthogonal views, use wireframe rendering
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glPolygonMode(GL_FRONT_AND_BACK, GL_LINE);
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// Enable line anti-aliasing
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glEnable(GL_LINE_SMOOTH);
glEnable(GL_BLEND);
glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA);
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// Setup orthogonal projection matrix
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glMatrixMode(GL_PROJECTION);
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glLoadIdentity();
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glOrtho(-3.0 * aspect, 3.0 * aspect, -3.0, 3.0, 1.0, 50.0);
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// Upper left view (TOP VIEW)
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glViewport(0, height / 2, width / 2, height / 2);
glScissor(0, height / 2, width / 2, height / 2);
glMatrixMode(GL_MODELVIEW);
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glLoadIdentity();
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gluLookAt(0.0f, 10.0f, 1e-3f, // Eye-position (above)
0.0f, 0.0f, 0.0f, // View-point
0.0f, 1.0f, 0.0f); // Up-vector
drawGrid(0.5, 12);
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drawScene();
// Lower left view (FRONT VIEW)
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glViewport(0, 0, width / 2, height / 2);
glScissor(0, 0, width / 2, height / 2);
glMatrixMode(GL_MODELVIEW);
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glLoadIdentity();
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gluLookAt(0.0f, 0.0f, 10.0f, // Eye-position (in front of)
0.0f, 0.0f, 0.0f, // View-point
0.0f, 1.0f, 0.0f); // Up-vector
drawGrid(0.5, 12);
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drawScene();
// Lower right view (SIDE VIEW)
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glViewport(width / 2, 0, width / 2, height / 2);
glScissor(width / 2, 0, width / 2, height / 2);
glMatrixMode(GL_MODELVIEW);
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glLoadIdentity();
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gluLookAt(10.0f, 0.0f, 0.0f, // Eye-position (to the right)
0.0f, 0.0f, 0.0f, // View-point
0.0f, 1.0f, 0.0f); // Up-vector
drawGrid(0.5, 12);
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drawScene();
// Disable line anti-aliasing
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glDisable(GL_LINE_SMOOTH);
glDisable(GL_BLEND);
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// ** PERSPECTIVE VIEW **
// For perspective view, use solid rendering
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glPolygonMode(GL_FRONT_AND_BACK, GL_FILL);
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// Enable face culling (faster rendering)
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glEnable(GL_CULL_FACE);
glCullFace(GL_BACK);
glFrontFace(GL_CW);
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// Setup perspective projection matrix
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glMatrixMode(GL_PROJECTION);
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glLoadIdentity();
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gluPerspective(65.0f, aspect, 1.0f, 50.0f);
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// Upper right view (PERSPECTIVE VIEW)
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glViewport(width / 2, height / 2, width / 2, height / 2);
glScissor(width / 2, height / 2, width / 2, height / 2);
glMatrixMode(GL_MODELVIEW);
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glLoadIdentity();
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gluLookAt(3.0f, 1.5f, 3.0f, // Eye-position
0.0f, 0.0f, 0.0f, // View-point
0.0f, 1.0f, 0.0f); // Up-vector
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// Configure and enable light source 1
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glLightfv(GL_LIGHT1, GL_POSITION, light_position);
glLightfv(GL_LIGHT1, GL_AMBIENT, light_ambient);
glLightfv(GL_LIGHT1, GL_DIFFUSE, light_diffuse);
glLightfv(GL_LIGHT1, GL_SPECULAR, light_specular);
glEnable(GL_LIGHT1);
glEnable(GL_LIGHTING);
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// Draw scene
drawScene();
// Disable lighting
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glDisable(GL_LIGHTING);
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// Disable face culling
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glDisable(GL_CULL_FACE);
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// Disable depth test
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glDisable(GL_DEPTH_TEST);
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// Disable scissor test
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glDisable(GL_SCISSOR_TEST);
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// Draw a border around the active view
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if (active_view > 0 && active_view != 2)
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{
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glViewport(0, 0, width, height);
glMatrixMode(GL_PROJECTION);
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glLoadIdentity();
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glOrtho(0.0, 2.0, 0.0, 2.0, 0.0, 1.0);
glMatrixMode(GL_MODELVIEW);
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glLoadIdentity();
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glTranslatef((GLfloat) ((active_view - 1) & 1), (GLfloat) (1 - (active_view - 1) / 2), 0.0f);
glColor3f(1.0f, 1.0f, 0.6f);
glBegin(GL_LINE_STRIP);
glVertex2i(0, 0);
glVertex2i(1, 0);
glVertex2i(1, 1);
glVertex2i(0, 1);
glVertex2i(0, 0);
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glEnd();
}
}
//========================================================================
// Framebuffer size callback function
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//========================================================================
static void framebufferSizeFun(GLFWwindow* window, int w, int h)
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{
width = w;
height = h > 0 ? h : 1;
do_redraw = 1;
}
//========================================================================
// Window refresh callback function
//========================================================================
static void windowRefreshFun(GLFWwindow* window)
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{
do_redraw = 1;
}
//========================================================================
// Mouse position callback function
//========================================================================
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static void cursorPosFun(GLFWwindow* window, double x, double y)
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{
// Depending on which view was selected, rotate around different axes
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switch (active_view)
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{
case 1:
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rot_x += (int) (y - ypos);
rot_z += (int) (x - xpos);
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do_redraw = 1;
break;
case 3:
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rot_x += (int) (y - ypos);
rot_y += (int) (x - xpos);
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do_redraw = 1;
break;
case 4:
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rot_y += (int) (x - xpos);
rot_z += (int) (y - ypos);
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do_redraw = 1;
break;
default:
// Do nothing for perspective view, or if no view is selected
break;
}
// Remember cursor position
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xpos = x;
ypos = y;
}
//========================================================================
// Mouse button callback function
//========================================================================
static void mouseButtonFun(GLFWwindow* window, int button, int action, int mods)
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{
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if ((button == GLFW_MOUSE_BUTTON_LEFT) && action == GLFW_PRESS)
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{
// Detect which of the four views was clicked
active_view = 1;
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if (xpos >= width / 2)
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active_view += 1;
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if (ypos >= height / 2)
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active_view += 2;
}
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else if (button == GLFW_MOUSE_BUTTON_LEFT)
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{
// Deselect any previously selected view
active_view = 0;
}
do_redraw = 1;
}
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static void key_callback(GLFWwindow* window, int key, int scancode, int action, int mods)
{
if (key == GLFW_KEY_ESCAPE && action == GLFW_PRESS)
glfwSetWindowShouldClose(window, GL_TRUE);
}
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//========================================================================
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// main
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//========================================================================
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int main(void)
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{
GLFWwindow* window;
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// Initialise GLFW
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if (!glfwInit())
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{
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fprintf(stderr, "Failed to initialize GLFW\n");
exit(EXIT_FAILURE);
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}
// Open OpenGL window
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window = glfwCreateWindow(500, 500, "Split view demo", NULL, NULL);
if (!window)
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{
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fprintf(stderr, "Failed to open GLFW window\n");
glfwTerminate();
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exit(EXIT_FAILURE);
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}
// Set callback functions
glfwSetFramebufferSizeCallback(window, framebufferSizeFun);
glfwSetWindowRefreshCallback(window, windowRefreshFun);
glfwSetCursorPosCallback(window, cursorPosFun);
glfwSetMouseButtonCallback(window, mouseButtonFun);
glfwSetKeyCallback(window, key_callback);
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// Enable vsync
glfwMakeContextCurrent(window);
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glfwSwapInterval(1);
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glfwGetFramebufferSize(window, &width, &height);
framebufferSizeFun(window, width, height);
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// Main loop
for (;;)
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{
// Only redraw if we need to
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if (do_redraw)
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{
// Draw all views
drawAllViews();
// Swap buffers
glfwSwapBuffers(window);
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do_redraw = 0;
}
// Wait for new events
glfwWaitEvents();
// Check if the window should be closed
if (glfwWindowShouldClose(window))
break;
}
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// Close OpenGL window and terminate GLFW
glfwTerminate();
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exit(EXIT_SUCCESS);
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}